JP2008276353A - Communication system, management apparatus, terminal, method, program and data structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication system that can recognize the types of exercises that users do even in areas for exercises using no exercise equipment in exercise facilities. <P>SOLUTION: The communication system includes a first communication device 10 that a user who uses divided areas dividing a particular area wears, a plurality of second communication devices 20 installed over the particular area, and a management apparatus 40. The first communication device 10 includes a first communication device control means 16 for transmitting first identification information to the second communication devices. The second communication devices 20 each include a second communication device control means 24 for transmitting the first identification information with second identification information attached to the management apparatus. The management apparatus 40 includes an area use mode recognition means 41g for referring to area use mode map information representing correspondences between the second identification information and type information representing types of use modes of the divided areas, and recognizing the type of use mode of the divided area where the user is, according to the second identification information and first identification information. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a communication system, a management device, a communication device, a reception terminal, a display terminal, an information processing method, an information processing service method, a management program, a communication program, a terminal program, and a data structure. The present invention relates to a communication system according to a transmission place of a sensor.

  In recent years, an increasing number of users use exercise facilities (for example, fitness clubs and sports clubs) for the purpose of maintaining or improving health or for the purpose of dieting. Here, a generic name of fitness clubs, sports clubs, and the like is referred to as “exercise facilities”. In a general exercise facility, each part of the exercise facility such as a training gym or a studio can be used while receiving guidance from an instructor or the like.

  The user performs training by appropriately selecting each part in the exercise facility according to the type of exercise selected by the user and the purpose of the exercise of the user. For example, when using various exercise equipment installed in each part in the exercise facility, the user goes to a place where the desired type of exercise equipment in the exercise facility is located and performs training.

  A user who uses an exercise facility performing such training wants to know various information related to his / her exercise. As a related technique of a system for providing various information to a user when using an exercise facility, for example, Patent Document 1 shown below can be cited.

  Patent Document 1 discloses a fitness information management system in which a biological information terminal and a fitness information management device are connected to manage the physical condition of the user of the biological information terminal. In Patent Document 1, when a user approaches an exercise device (training device), a training device ID attached to the training device is read by a sensor device of a biological information terminal worn by the user (paragraph number 0057). Thereby, the exercise equipment which the user is using can be grasped.

The biometric information terminal attached to the user includes a sensor device. When the biometric information such as a pulse is detected by the sensor device, the fitness information management device (center server) detects the pulse detected by the comparison unit in advance. When the stored value is equal to or greater than a predetermined reference value (warning reference value data) that is a normal pulse, the alarm unit transmits an instruction for alarming the user's biological information terminal (paragraph numbers 0045 to 0048).
JP 2006-053722 A

However, Patent Document 1 has a problem that the type of exercise performed by the user cannot be determined in exercises such as aerobics and yoga that do not use special exercise equipment (training apparatus). That is, there is a problem that it is not known what kind of exercise the biological information is obtained as a result of.
In particular, when one floor of an exercise facility such as a studio is used as an application for a plurality of exercise types (aerobics, yoga, etc.), there is a problem that each type of exercise cannot be grasped.

  The present invention has been made in order to solve the above-described technical problems, and the object of the present invention is to provide a user in a specific area such as exercise without using exercise equipment in the facility. Communication system, management apparatus, communication apparatus, reception terminal, display terminal, information processing method, information processing service method, management program, communication program, terminal program, and the like To provide a data structure.

  The above object can be achieved by a combination of features described in the main independent claims, and other independent claims and subclaims define further advantageous specific examples of the invention. This summary of the invention does not enumerate all the features that are necessary, and thus independent claims and subclaims that are not described herein, and subcombinations of these features can also be invented.

One aspect of the communication system of the present invention is a first communication device that is attached to a user who uses each divided area obtained by dividing a specific area into a plurality of areas, and is installed across the specific area, the first communication The configuration includes a plurality of second communication devices capable of detecting information from at least radio transmission waves from the device, and a management device capable of communicating with the plurality of second communication devices via a network.
The first communication device includes first communication device control means for performing a control process of transmitting first identification information for identifying itself to the second communication device. Second communication device control means for performing a control process in which the second communication device attaches second identification information for identifying itself to the first identification information from the first communication device and transmits the second identification information to the management device. ,including.
The management apparatus refers to area usage pattern diagram information indicating a correspondence relationship between the second identification information registered in advance and type information indicating the type of usage pattern of the segmented area, and receives information from the second communication apparatus. An area use form grasping means for grasping the type of use form of the divided area to which the user belongs is based on the second identification information and the first identification information.

  According to one aspect of the management device of the present invention, biometric information from a first communication device attached to a user who uses each divided area obtained by dividing a specific area into a plurality of areas is installed over the specific area. A management device that accepts via any one of a plurality of second communication devices and manages the biological information, and includes an identification information acquisition unit, a region use form grasping unit, and an analysis calculation control unit. did. The identification information acquisition means receives the first identification information and the biological information from the first communication device and the second identification information from the second communication device from the second communication device, and the second information Identification information, the first identification information, and the biological information are acquired. The area usage form grasping means uses the divided area to which the user belongs based on the type information indicating the use form of the divided area associated with the second identification information and the first identification information. Know the type of form. The analysis calculation control means selects and controls each analysis calculation method of the biological information in accordance with each of the divided areas, and is selected based on the type information of the divided areas grasped by the area use form grasping means. Control that performs an analysis calculation of the biological information of the user by the analysis calculation method and writes the analysis result physical quantity information calculated by the analysis to the specific storage area in association with the first identification information do.

In another aspect of the management apparatus of the present invention, information is exchanged between the management apparatus as described above and the reception terminal (claim 16). Furthermore, in another aspect of the management apparatus, information is exchanged between the management apparatus as described above and the display terminal (claim 17).
Further, the second communication device used in the communication system is a communication device in the independent claim (claim 18). Similarly, the reception terminal (claim 19) and the display terminal (claim 20) used in the communication system can be used independently.

  One aspect of the information processing method of the present invention is a procedure including an area identification information acquisition step and an area usage form grasping step. In the area identification information acquisition step, first identification information transmitted from a first communication device attached to a user who uses each divided area obtained by dividing the specific area into a plurality of areas is installed over the specific area. Received by any one of the plurality of second communication devices, and the computer acquires second identification information for identifying the second communication device and the first identification information. In the area usage pattern grasping step, the computer refers to area usage pattern diagram information indicating a correspondence relationship between the second identification information registered in advance and type information indicating the type of usage pattern of the divided area, Based on the second identification information and the first identification information acquired in the region identification information acquisition step, the type of use form of the segmented region to which the user belongs is grasped.

Another aspect of the information processing method of the present invention is a procedure including a biometric information acquisition step, an identification information identification step, an identification information identification step, an area utilization form grasping step, and an analysis calculation control step. In the biometric information acquisition step, a first communication device attached to a user who uses each divided area obtained by dividing the specific area into a plurality of areas acquires the biometric information of the user. In the identifying information specifying step, the first identifying information and the biological information transmitted from the first communication device are used as the second communication in any one of a plurality of second communication devices installed across the specific region. The second identification information that is received by the device and identifies the second communication device is specified.
In the identification information acquisition step, the computer acquires the second identification information, the first identification information, and the biological information. In the area usage pattern grasping step, the computer refers to area usage pattern diagram information indicating a correspondence relationship between the second identification information registered in advance and type information indicating the type of usage pattern of the divided area, Based on the second identification information and the first identification information acquired in the identification information acquisition step, the type of usage mode of the divided area to which the user belongs is grasped. In the analysis calculation control step, the computer selects and controls each analysis calculation method of the biological information according to each of the divided areas, and based on the type information of the divided areas acquired in the area use form determination step. A process of performing an analysis calculation of the biological information of the user by the analysis calculation method selected by the user and writing the analysis result physical quantity information corresponding to the analysis calculation to a specific storage area in association with the first identification information Control to do.

  In still another aspect of the information processing method of the present invention, a method including a process of registering various information in the management apparatus is defined (claim 30). Furthermore, in another aspect of the information processing method of the present invention, a method including a process in which the management apparatus outputs result information is defined (claim 31). Furthermore, in another aspect of the information processing method of the present invention, a method including a process in which a computer executes a processing procedure of a second communication device in a communication system is defined (claim 32). Furthermore, in another aspect of the information processing method of the present invention, a method including information exchange between a management apparatus and a reception terminal in a communication system is defined (claim 33). Furthermore, in another aspect of the information processing method of the present invention, a method including information exchange between a management device and a display terminal in a communication system is defined (claim 34).

  According to one aspect of the information processing service method of the present invention, biometric information from a first communication device attached to a user who uses each divided area obtained by dividing a specific area into a plurality of areas is installed over the specific area. An information providing service related to analysis result physical quantity information obtained by analyzing the biological information is provided to the user by using a management device that manages the biological information using one of the plurality of second communication devices. The information processing service method is a procedure including an identification information acquisition step, an area use form grasping step, an analysis calculation control step, and an analysis result information providing step. In the identification information acquisition step, the management device receives the first identification information and the biological information from the first communication device and the second identification information from the second communication device from the second communication device. Then, the second identification information, the first identification information, and the biological information are acquired. In the area use form grasping step, the management device belongs to the user based on type information indicating the use form of the divided area associated with the second identification information and the first identification information. Understand the type of usage of the segmented area. In the analysis calculation control step, the management apparatus selects and controls each analysis calculation method of the biological information in accordance with each of the divided areas, and the type information of the divided areas acquired in the area use form determination step The analysis calculation method selected based on the analysis calculation of the user's biological information is performed, and the analysis result physical quantity information calculated by the analysis calculation is stored in a specific storage area corresponding to the first identification information. Controls the writing process. In the analysis result information providing step, the management device provides the analysis result physical quantity to the user of the first identification information.

  In another aspect of the information processing service method of the present invention, functions other than the second communication device in the communication system (for example, the first communication device / management device) are aggregated into one computer (information processing device) to provide a service. The method of the case is defined (claim 36).

According to one aspect of the management program of the present invention, biometric information from a first communication device attached to a user who uses each divided area obtained by dividing a specific area into a plurality of areas is installed over the specific area. A management program that can be executed by a computer that manages the biometric information received through any one of a plurality of second communication devices, and includes identification information acquisition means, area utilization form grasping means, and analysis calculation control As a means, the computer is made to function.
The identification information acquisition means receives the first identification information and the biological information from the first communication device and the second identification information from the second communication device from the second communication device, and the second information Identification information, the first identification information, and the biological information are acquired. The area usage form grasping means uses the divided area to which the user belongs based on the type information indicating the use form of the divided area associated with the second identification information and the first identification information. Know the type of form. The analysis calculation control means selects and controls each analysis calculation method of the biological information in accordance with each of the divided areas, and is selected based on the type information of the divided areas grasped by the area use form grasping means. Control that performs an analysis calculation of the biological information of the user by the analysis calculation method and writes the analysis result physical quantity information calculated by the analysis to the specific storage area in association with the first identification information do.

  Another aspect of the management program of the present invention may include a registering function (claim 38). Further, a display function may be included (claim 39). In another aspect of the management program of the present invention, a case is shown in which the region can be grasped even if there is no biological information (claim 40). In another aspect of the management program of the present invention, functions other than the second communication device in the communication system (for example, the first communication device / management device) are aggregated into one computer (information processing device) to provide result information. (Claim 41).

  Further, the second communication device program is defined as a communication program (Claim 42), the reception terminal program is defined as a terminal program (Claim 43), and the display terminal program is defined as a terminal program (Claim 44). Yes.

According to the data structure of the present invention, the biometric information from the first communication device attached to the user who uses each divided area obtained by dividing the specific area into a plurality of areas is stored in a plurality of first areas. A data structure of information used for processing of analyzing the biological information received by any of the two communication devices and performed by a computer managing the biological information, the first structure unit, the second structure unit, It was set as the structure containing these.
In the first structure unit, second identification information for identifying the second communication device and type information indicating the type of usage form of the segmented area are stored in association with each other. In the second structure unit, first identification information for identifying the first communication device, user identification information for identifying the user, and the biological information are stored in association with each other.
The said 1st structure part is the said division | segmentation area | region where the said user belongs because a computer acquires the said type information corresponding based on the said 2nd identification information received from a said 2nd communication apparatus with the said biometric information. This is used to perform the area use form grasping process for grasping the type of use form.
The first structure unit and the second structure unit are grasped by the region use form grasping process when the computer selectively controls each analysis calculation method of the biological information according to each of the divided regions. The analysis calculation method is selected based on the type information of the segmented area, and the analysis calculation method selected is used to perform analysis calculation based on the biological information, and the analysis calculation result physical quantity information is The user identification information corresponding to the first identification information received via the second communication device together with the biological information, and an analysis calculation control process for performing a control to perform a process of writing to a specific storage area in association with the user identification information Used to do.

  The operation and other advantages of the present invention will be made clear from the embodiments described below.

  ADVANTAGE OF THE INVENTION According to this invention, the kind of the usage form which a user uses in each division area which divided the specific area can be grasped | ascertained.

  The embodiments described below do not unduly limit the contents of the present invention described in the claims. In addition, all the configurations described in the embodiments are not necessarily essential configuration requirements of the invention.

[Outline of the Invention]
The outline of the present invention will be described below, but the numbers in parentheses are for convenience indicating the corresponding elements in the drawings, and therefore the present description is not limited to the descriptions on the drawings.
The communication system according to the first aspect of the present invention (for example, reference numeral 1 shown in FIG. 1) is configured by dividing each specific area (for example, floor F shown in FIG. 1) into a plurality of areas (for example, in FIG. 1). A first communication device (for example, reference numeral 10 shown in FIG. 1) attached to a user who uses the areas AR <b> 1 to AR <b> 4 shown in FIG. 1, and at least wirelessly installed from the first communication apparatus. A plurality of second communication devices capable of detecting transmission waves and acquiring information (for example, reference numeral 20 shown in FIG. 1 <more specifically, including A21, A22, A33, A11, A12, A13, A01, A02, A03>) And a management device (for example, reference numeral 40 shown in FIG. 1) capable of communicating with the plurality of second communication devices via a network (for example, reference numeral N1 shown in FIG. 1).

  The first communication device performs first control processing for transmitting first identification information for identifying itself (for example, wireless biosensor ID <or simply “sensor ID”> shown in FIG. 1) to the second communication device. Communication device control means (for example, reference numeral 16 shown in FIG. 2) is included. The second communication device attaches second identification information (for example, receiving terminal ID <or simply “terminal ID”> shown in FIG. 1) to the first identification information from the first communication device. And the 2nd communication apparatus control means (for example, code | symbol 24 shown in FIG. 2) which performs the control process transmitted to the said management apparatus is included.

  The management device uses area usage pattern information (for example, reference numeral 44 shown in FIGS. 2 and 6) indicating the correspondence between the second identification information registered in advance and type information indicating the type of usage of the segmented area. ) And using the second identification information and the first identification information from the second communication device, the area use form grasping means for grasping the type of use form of the divided area to which the user belongs ( For example, the reference numeral 41c shown in FIG. 6 included in the reference numeral 41 shown in FIG.

In the communication system according to the first aspect, a plurality of second communication devices are installed over a specific area, and each of them has unique second identification information. Further, the first communication device attached to the user has unique first identification information.
Here, assuming that there is one user for ease of explanation, the user uses, for example, one segmented area. More specifically, “use” refers to, for example, performing an exercise in one segmented region to perform a desired exercise. Various usage forms are conceivable for “use”. In this example, an example of exercise is given as an example. Therefore, the “type of use form” corresponds to “type of exercise” or the like.
At this time, the first identification information is transmitted from the first communication device as a radio transmission wave in one section area. Since a plurality of second communication devices are installed over a specific region, any one of the second communication devices corresponding to one segmented region among the plurality of second communication devices (more specifically, the position of the user). The second communication device located at the closest distance to the first communication device receives the radio transmission wave from the first communication device. When the second communication device receives the radio transmission wave from the first communication device, the second communication device adds the second identification information to the first identification information and transmits the first identification information to the management device.
In the management device, type information (for example, exercise type information) indicating the type of usage type (for example, type of exercise) of the segmented area and second identification information are associated with each other in advance, and region usage pattern information (for example, facility map) Information etc.). Although it is “Figure”, the figure is not held in the format as it is, but the correspondence is held in the table format for each divided area. However, since this table behaves as if there is a “figure” as a function, it is called a “figure”.
For this reason, when the area use form grasping means receives the first identification information and the second identification information from the second communication device, the area use form grasping unit refers to the area use form drawing information and corresponds to the divided area based on the second identification information. Get type information. Since the user is specified by the first identification information, the user corresponding to the first identification information recognizes that the user uses the acquired type information (for example, yoga). Corresponding type information is acquired in the same manner when another user uses it in another divided area.
Even if the user moves from one segmented region to another segmented region, the region usage form grasping means acquires corresponding type information of the other segmented region. Thus, the management apparatus recognizes that one user uses one usage pattern in one division area, then moves to another division area, and uses another usage pattern.

A communication system according to a second aspect is the communication system according to the first aspect, wherein the first communication device is a biological information acquisition unit (for example, reference numeral 11 shown in FIG. 2 or FIG. 22) that acquires biological information of the user. 311 and the like.
The first communication device control means attaches the first identification information to the acquired biological information and transmits it to the second communication device. The second communication device control means further attaches the second identification information to the biological information with the first identification information from the first communication device, and transmits it to the management device.
The management device selects and controls each analysis calculation method of the biological information according to each of the divided areas, and is selected based on the type information of the divided areas grasped by the area use form grasping means. An analysis calculation method is used to perform an analysis calculation of the user's biological information, and to perform a process of writing the analysis result physical quantity information calculated by the analysis calculation in correspondence with the first identification information into a specific storage area It further has an analytical calculation control means (for example, reference numeral 45 shown in FIGS. 2 and 6).

In the communication system according to the second aspect, the biological information is acquired by the biological information acquisition means of the first communication device. The analysis calculation control means of the management device calculates the analysis result physical quantity based on the biological information. In this calculation, a different analysis calculation method is performed in each segmented region. In other words, different analytical calculation methods are performed depending on the type of type information. When the type information is specified by the area use form grasping means, the analysis calculation control means selects an analysis calculation method corresponding to the specified type information. Analysis result physical quantity information is calculated based on the biological information by the selected analysis calculation method. The calculated analysis result physical quantity information is written in a specific storage area corresponding to the first identification information.
In this way, in one segmented region, the analysis calculation is performed by one analysis calculation method, and in the other segment region, the analysis calculation is performed by another analysis calculation method. Calculation accuracy can be improved.

  Here, “specific area” may refer to facilities of the entire club including gyms, studios, pools, etc., “specific area” may refer to only one studio, or “specific area” may refer to a studio or A term that includes various concepts, sometimes referring to a single floor (one large room) that also serves as a gym, or a “specific area” that refers to a building in which each floor is stacked. It will be used as.

  The outline has been described above with the superordinate concept, but an example of a preferred embodiment of the present invention that embodies this will be specifically described below with reference to the drawings.

[First Embodiment]
[1.1] Explanation of Principle of First Embodiment FIG. 1 is an explanatory diagram showing an outline for explaining the principle of a communication system according to the first embodiment of the present invention.
In the present embodiment, as shown in FIG. 1, the user P in each segmented area of the specific area uses the biological information (eg, heart rate, electrocardiogram, body temperature, three-dimensional motion acceleration) of the user during exercise. The wireless biosensor 10 that can be acquired and wirelessly transmitted is worn. It is preferable that the radio wave transmitted by the wireless biosensor 10 can reach only a certain distance or less.

  On the other hand, a plurality of receiving terminals 20 that receive signals from the wireless biosensor 10 are installed over a specific area. The receiving terminals are arranged in a matrix form spaced from a specific area (for example, floor F) where the user exercises. Each receiving terminal 20 has a unique identifier.

  The analysis server 40 holds information (biological sensor user DB 42) for associating the user with the biometric sensor. Furthermore, the analysis server 40 holds in advance area usage pattern information (floor map information) <facility map DB 44> such as placement of exercise equipment in a specific area (floor) and a segmented area (area) where a specific exercise is performed. To do.

  Thus, when the user exercises at any location in the specific area (floor), any of the receiving terminals 20 receives information transmitted from the wireless biosensor 10 attached to the user. From the identifier of the receiving terminal 20 and the floor map information, it is determined what type of exercise the user has performed (which exercise equipment has been used or in which exercise space) it can.

[1.2] Specific Overall Configuration of Communication System Next, the specific configuration of the communication system of the present invention for achieving the main functions as described above will be described from the overall configuration of the system, followed by radio. A detailed configuration of each part of the biosensor, the receiving terminal, the receiving terminal, the analysis server, and the display terminal will be described. First, a schematic configuration of a system, particularly its communication infrastructure and hardware configuration, which is a premise for operating the communication system of the present embodiment, will be described with reference to FIG. 1 and FIG. FIG. 1 is an explanatory diagram showing an overall schematic configuration of a communication system according to the present embodiment. In the present embodiment, a heartbeat will be described as an example of biometric information.

The communication system 1 according to the present embodiment provides the user with various amounts of exercise according to the type of exercise of the user using the exercise facility. As shown in FIG. The wireless biosensors 10 ("first communication device" referred to in the present invention) each attached to a user and the biometric information from at least one wireless biosensor 10 are received, and in a matrix over the exercise facility A plurality of receiving terminals 20 (the “second communication device” according to the present invention) arranged and configured to be able to communicate with the plurality of receiving terminals 20 via the network N1, and analyzing server 40 (this book) that manages the biological information The “management apparatus” in the invention), the reception terminal 30 that is formed to be able to communicate with the analysis server 40 via another network, and inputs various information to the analysis server 40, the analysis server 40, and others Configured to include a display terminal 60 which is formed to be capable of communicating over a network to display a variety of information of the analysis server 40 and (referred to in the present invention "display terminal"), a.
With such a system configuration, the analysis result physical quantity information can be provided based on biological information.

[1.3] (Overall operation of communication system)
The overall schematic operation will be described with reference to FIG.
A user (a person who performs exercise) wears the wireless biosensor 10 on his / her body when exercising. A plurality of receiving terminals 20 are installed on the floor where the user exercises. The receiving terminal 20 receives information transmitted from the wireless biosensor 10 by wireless communication. The receiving terminal 20 is arranged on a floor on which a user exercises in a mesh shape with an interval so that radio waves transmitted from a certain wireless biosensor can be received by only one receiving terminal.
Using the reception terminal 30, the fitness club receptionist registers the association between the user ID of the user and the sensor ID of the wireless biosensor distributed to the user. The reception terminal 30 for inputting the wireless biosensor ID is a device having an input function, a display function, and a communication function such as a personal computer or a mobile phone.
The user's biometric information acquired by the wireless biosensor 10 is collected and analyzed by the analysis server 40 via the receiving terminal 20. The user views the analysis result using the display terminal 60.

(Installation environment of receiving terminal in communication system)
FIG. 1 is an explanatory diagram showing an outline of a communication system according to the present embodiment, and shows a specific example of an installation environment of receiving terminals in the system.
In this example, “fitness club floor F” is shown as an example of “exercise area” which is an example of “specific area”, but the present invention is not limited to this. “Exercise area” includes various types of exercise facilities that can be used for exercise or are not included in various other general facilities such as sports clubs, schools, public gymnasiums, and leisure facilities. This includes areas where exercise is performed.
Or, not only on land but indoors, in one relatively large pool, exercises such as water polo are performed in one segmented motion area (segmented area), and in other segmented motion areas (segmented areas) It can also be applied to practice.

As shown in the figure, on the floor F of the fitness club, a plurality of receiving terminals 20 are installed in a substantially matrix shape (mesh shape) of i rows and j columns. In the example of FIG. 1, for example, a total of nine (3 × 3) receiving terminals 20 (A01, A02, A03, A11, A12, A13, A21, A22, A23) are installed.
On the floor F (exercise area) of the fitness club, divided exercise areas (AR1 to AR4) divided according to the exercise form (exercise type) are formed. For example, the segmented exercise area AR1 is an exercise area for an exercise bike (an exercise bike area), and the segmented exercise area AR2 is an exercise area for a yoga (yoga area). Further, the segmented exercise region AR3 is formed by dividing the exercise region into an exercise area for the upper arm muscle training, and the segmented exercise region AR4 is an exercise area for the running machine. In this example, an exercise area is formed in which the divided exercise areas AR1, AR3, AR4 that require exercise equipment and the divided exercise areas AR2 that do not require exercise equipment are mixed. Of course, all the segmented motion regions may be formed as regions that do not require exercise equipment.

  The wireless biosensor 10 is attached in advance to the fitness club user P1. The wireless biosensor 10 incorporates a unique wireless biosensor ID. When the user P1 wears the wireless biosensor 10, the biometric information and the wireless biosensor ID are transmitted from the wireless biosensor 10. In FIG. 1, only the user P1 is shown, but it is assumed that a plurality of users are performing various exercises in each area. Further, in the present embodiment, when biometric information is acquired from the wireless biosensor 10, the wireless biosensor ID is attached and transmitted. However, when the biometric information is attached, the biometric information is acquired by specific switching means without acquiring the biometric information. You may comprise so that only wireless biosensor ID can be transmitted.

  A unique receiving terminal ID is incorporated in the receiving terminal 20. At least one receiving terminal 20 that has detected a transmission wave from the wireless biosensor 10 among the plurality of receiving terminals 20 gives the receiving terminal ID to the biometric information with the wireless biosensor ID.

  The analysis server 40 is configured to be able to communicate with each of the plurality of receiving terminals 20 via the network N1. The receiving terminal 20 transmits the receiving terminal ID, the wireless biosensor ID, and the biometric information to the analysis server 40 via the network N1.

  The analysis server 40 includes a facility map DB 44 and a biosensor user DB 42. The wireless biosensor ID and the user P are associated with each other by previously registering the member ID of the user P and the wireless biosensor ID from the reception terminal 30 in the biosensor user DB 42 of the analysis server 40. An association is made. Further, the association between the receiving terminal ID of the receiving terminal 20 and the exercise type information indicating the type of exercise is associated by registering in advance in the facility map DB 44 of the analysis server 40.

  The analysis server 40 acquires exercise type information by referring to the facility map DB 44 based on the receiving terminal ID from the receiving terminal 20, and exercises the user in each area in the facility where GPS radio waves or the like do not reach. Can be identified.

  In the example of FIG. 1, the receiving terminal 20 (A01), the receiving terminal 20 (A02), the receiving terminal 20 (A11), and the receiving terminal 20 (A12) correspond to the yoga area of the segmented exercise area AR2. When the transmission radio wave from the wireless biosensor 10 is received by any one of the four receiving terminals 20, the sensor ID and the receiving terminal ID from the wireless biosensor 10 are transmitted to the analysis server 40, and the analysis server In 40, by referring to the facility map DB 44, it is identified as a segmented exercise area of the yoga area from the exercise type information.

  The receiving terminal 20 (A21), the receiving terminal 20 (A22), and the receiving terminal 20 (A23) correspond to the exercise bike area AR1 in the exercise bike area AR1, and are transmitted from the wireless biosensor 10. Is received by any one of the three receiving terminals 20, the sensor ID and the receiving terminal ID from the wireless biosensor 10 are transmitted to the analysis server 40, and the analysis server 40 refers to the facility map DB 44. Thus, it is identified from the exercise type information as a segmented exercise region of the exercise bike area.

  The receiving terminal 20 (A03) corresponds to the running machine area of the segmented motion area AR4. When the receiving radio wave from the wireless biosensor 10 is received by the receiving terminal 20, the receiving terminal 20 (A03) The sensor ID and the receiving terminal ID are transmitted to the analysis server 40, and the analysis server 40 refers to the facility map DB 44 to identify the segmented exercise area of the running machine area from the exercise type information.

  The receiving terminal 20 (A13) corresponds to the upper arm muscle training area of the segmented exercise area AR3. When the receiving radio waves from the wireless biosensor 10 are received by the receiving terminal 20, the wireless biosensor 10 The sensor ID and the receiving terminal ID are transmitted to the analysis server 40. The analysis server 40 refers to the facility map DB 44 to identify the segmented exercise area of the upper arm muscle training area from the exercise type information.

  Thereby, when the analysis server 40 receives the receiving terminal ID, the wireless biosensor ID, and the biometric information from the receiving terminal 20, the analysis server 40 refers to the biosensor user DB and the facility map DB and relates to the user P as shown below. Various quantities related to physical quantities based on biological information are calculated.

[1.4] (Detailed configuration of each device: wireless biosensor)
FIG. 3 shows a specific configuration of the wireless biosensor 10 used in the communication system 1.

  A wireless biosensor 10 which is an example of a first communication device is attached to or attached to a user, and includes a user attachment portion (not shown) outside the wireless biosensor main body. As shown in FIG. 4, a biometric information acquisition unit 11 that acquires biometric information of a user who has attached a sensor, and a wireless biosensor ID (first identification information) that is an ID (identification information) unique to the wireless biosensor 10 in advance. The sensor ID storage unit 14 that is stored and stored, the information transmission unit 15 that transmits the biometric information and the wireless biosensor ID to any one of the plurality of receiving terminals 20 by radio communication, and the control of these units. And a control unit 16.

The biological information that can be acquired by the sensor includes, for example, body temperature information, body temperature, acceleration of motion in a three-dimensional direction, and the like. In the present embodiment, the biometric information acquisition unit 11 will be described by taking as an example the case of acquiring a user's heart rate.
In addition, the information transmission unit 15 preferably has a non-contact transmission function such as an RFID tag, or a wireless communication function such as a wireless LAN or Bluetooth.

  The biological information acquisition unit 11 detects a user's heartbeat information, and performs a signal processing of the detection information from the heartbeat information detection unit 12a (analog signal is converted into a digital signal and various processes are performed). And a heartbeat information signal processing unit 13a.

  The control unit 16 assigns the wireless biometric sensor ID (or simply sensor ID) of the sensor ID storage unit 14 to the biometric information (for example, heartbeat information) acquired by the biometric information acquisition unit 11 and the information transmission unit 15. The wireless biosensor ID and biometric information (for example, heart rate information) are controlled to be transmitted to the receiving terminal 20.

  Here, regarding the wireless biosensor 10, the correspondence relationship with the configuration requirements described in the present invention will be described. The biometric information acquisition unit 11 corresponds to the “biological information acquisition unit” in the present invention, and the control unit 16 This corresponds to "first communication device control means" according to one aspect of the present invention. When the “first communication device” does not acquire biometric information, the “first communication device control means” transmits the first identification information for identifying itself (first communication device) to the second communication device. I do. When the “first communication device” acquires the biological information, the “first communication device control unit” transmits the first identification information to the second communication device with the acquired biological information. Perform control processing.

  When the wireless biosensor 10 having the above-described configuration is attached to a user, the control unit 16 acquires biometric information (for example, heartbeat information) by the biometric information acquisition unit 11 and assigns a sensor ID to the biometric information. Then, the biometric information with the sensor ID is wirelessly transmitted from the information transmitting unit 15.

[1.5] (Detailed configuration of each device: receiving terminal)
FIG. 4 shows a specific configuration of the receiving terminal 20 used in the communication system 1.
As shown in FIG. 4, the receiving terminal 20, which is an example of the second communication device, includes an information receiving unit 21 that receives biological information from the wireless biosensor 10 and information such as a wireless biosensor ID by wireless communication, and the living body. An information transmission unit 22 that transmits information, information such as a wireless biosensor ID and a reception terminal ID (second identification information) to the analysis server 40 via the network N1, and various information such as a reception terminal ID The storage unit 23, other units 25, and a control unit 24 that is a control unit that controls these units are configured.

  For example, when the wireless biosensor is an RFID tag, the receiving terminal 20 may be configured by an RFID tag reader equipped with an antenna unit that receives a transmission wave from the wireless biosensor. The antenna part is preferably formed by an antenna having strong directivity, for example. Using a plurality of RFID tag readers, it is possible to detect a transmission wave from a wireless biosensor including an RFID tag.

  A plurality of receiving terminals 20 are installed on the floor on which the user exercises, and radio waves transmitted from a specific wireless biosensor 10 are arranged in a mesh form with an interval so that, for example, only one receiving terminal 20 can receive the signals. To do.

  The storage unit 23 includes a reception terminal ID storage unit 23a that stores the reception terminal ID, and other storage units 23b that store other various types of information or function as work areas.

  Note that some of the blocks (for example, reference numerals 24a, 24b, 24c, 24d, and 24e) in the block diagram shown in FIG. 4 are executed by the computer by executing various programs stored in an appropriate memory. It is a software module configuration showing a functionalized state. That is, the physical configuration is, for example, one or a plurality of CPUs (or one or a plurality of CPUs and one or a plurality of memories), etc., but the software configuration by each means is a plurality of functions exhibited by the CPU by controlling the program. Is expressed as a component by a plurality of means. When the CPU dynamically expresses a dynamic state (a state in which each procedure constituting the program is executed) being executed by the program, each means is configured in the CPU. In a static state in which the program is not executed, the entire program (or each program part included in the configuration of each unit) that realizes the configuration of each unit is stored in a storage area such as a memory. The explanation of each means shown below can be interpreted as a computer functionalized by a program together with the functions of the program, or a plurality of electronic circuits permanently functionalized by specific hardware. Of course, it can also be interpreted as an explanation of a device consisting of blocks. Therefore, these functional blocks can be realized in various forms by hardware only, software only, or a combination thereof, and is not limited to any one.

  The control unit 24 includes a biological information / sensor ID reception processing unit 24a that performs a control process of receiving biological information from the wireless biological sensor 10 and information such as a wireless biological sensor ID via the information receiving unit 21, and the biological information / A terminal ID provision processing unit 24b for performing a control process of assigning a reception terminal ID stored in the reception terminal ID storage unit 23a to the biological information / sensor ID information received by the sensor ID reception processing unit 24a; Biometric information / sensor ID / terminal for performing control processing for transmitting the biometric information / wireless biosensor ID / receiving terminal ID assigned by the terminal ID assigning processing unit 24b to the analysis server 40 via the information transmitting unit 22 An ID transmission processing unit 24c, a module control unit 24d for controlling the execution order of these processes, and other processes for performing various processes necessary for the receiving terminal 20. Configured to include a part 24e, a.

  The other units 25 include various configurations necessary for the receiving terminal 20 to function as a communication device. For example, an antenna unit and a signal processing unit are included.

  Here, regarding the receiving terminal 20, the correspondence relationship with the configuration requirements described in the present invention will be described. The control unit 24 corresponds to “second communication device control means” according to one aspect of the present invention. When the “first communication device” does not acquire biometric information, the “second communication device control means” attaches second identification information for identifying itself to the first identification information from the first communication device. Then, control processing to be transmitted to the management apparatus (analysis server) is performed. When the “first communication device” acquires biometric information, the “second communication device control means” uses the second identification information as the biometric information with the first identification information from the first communication device. In addition, a control process for transmitting to the management apparatus is performed.

  Further, the biological information / sensor ID reception processing unit 24a corresponds to the “first control unit” according to another aspect of the present invention. Furthermore, the terminal ID provision processing unit 24b corresponds to “identification information adding means” according to another aspect of the present invention. Furthermore, the biological information / sensor ID / terminal ID transmission processing unit 24c corresponds to the “second control unit” according to another aspect of the present invention.

  The “communication device” constituting the receiving terminal wirelessly receives biological information from another communication device attached to a user who uses each of the divided areas obtained by dividing the specific area into a plurality of areas, and the biological information Are transmitted to the management apparatus that provides the analyzed physical quantity information, and a plurality of them are installed over the specific area. At this time, the “first control unit” performs a control process of receiving first identification information for identifying another communication device and the biological information from the first communication device. In addition, the “identification information adding unit” performs a control process of further adding second identification information for identifying itself to the biological information to which the first identification information is attached. Furthermore, the “second control means” performs a control process of transmitting the first identification information and the biological information with the second identification information to the management device.

  In the receiving terminal 20 having the above-described configuration, the biological information / sensor ID reception processing unit 24a of the control unit 24 receives the biological information from the wireless biosensor 10 and information such as the wireless biosensor ID via the information receiving unit 21. The terminal ID assignment processing unit 24b of the control unit 24 assigns the reception terminal ID stored in the reception terminal ID storage unit 23a to the biological information / sensor ID information. Next, the biometric information / sensor ID / terminal ID transmission processing unit 24c of the control unit 24 sends the biometric information / wireless biosensor ID / receiving terminal ID assigned by the terminal ID provision processing unit 24b via the information transmission unit 22. To the analysis server 40.

[1.5] (Detailed configuration of each device: reception terminal)
The receptionist of the fitness club uses the reception terminal 30 to register the association between the user ID (user identification) of the user and the sensor ID of the wireless biosensor 10 distributed to the user. The wireless biosensor ID input terminal 30 is a device having an input function, a display function, and a communication function, such as a personal computer or a mobile phone.

  As shown in FIG. 5, the reception terminal 30 is an information device used by the user. The reception terminal 30 operates by program control, displays various information and performs various settings, and this display. An operation input unit 32 (for example, a keyboard / mouse) for operating and inputting data on the display screen (various input fields, etc.) of the unit 34, and a communication unit 31 (transmission / reception means) for transmitting / receiving various signals / data. A storage unit 35 (for example, a memory) for storing various programs and various data, other units 38 necessary for configuring the receiving terminal 30, and a control unit 36 (for example, for controlling these units) CPU etc.).

  The reception terminal 30 operates under program control, and may have any function related to the network, such as a desktop, laptop computer, other information device having a wireless / wired communication function, or a similar computer. It can be a computer, whether mobile or fixed.

  Some blocks in the block diagram shown in FIG. 5 (for example, reference numerals 36a, 36b, 36c, 36d, 36e, and 36f) are executed by the computer by executing various programs stored in an appropriate memory. It is a software module configuration showing a functionalized state. That is, the physical configuration is, for example, one or a plurality of CPUs (or one or a plurality of CPUs and one or a plurality of memories), etc., but the software configuration by each means is a plurality of functions exhibited by the CPU by controlling the program. Is expressed as a component by a plurality of means. When the CPU dynamically expresses a dynamic state (a state in which each procedure constituting the program is executed) being executed by the program, each means is configured in the CPU. In a static state in which the program is not executed, the entire program (or each program part included in the configuration of each unit) that realizes the configuration of each unit is stored in a storage area such as a memory. The explanation of each means shown below can be interpreted as a computer functionalized by a program together with the functions of the program, or a plurality of electronic circuits permanently functionalized by specific hardware. Of course, it can also be interpreted as an explanation of a device consisting of blocks. Therefore, these functional blocks can be realized in various forms by hardware only, software only, or a combination thereof, and is not limited to any one.

  The display unit 34 includes a member ID display setting unit 34a for setting a member ID in a specific input field to be displayed, and a sensor ID display setting unit for setting a sensor ID in a specific input field to be displayed. 34b, an end information display setting unit 34c for setting end information in a specific input field to be displayed, and a display control unit 34d for controlling the display mode of each display setting unit. Is done.

  The storage unit 35 is an information storage unit 35a for temporarily storing a member ID, a wireless biosensor ID, and the like input by the member ID display setting unit 34a and the sensor ID display setting unit 34b or input by the operation input unit 32. And other information necessary for the receiving terminal 30 or other storage unit 35b functioning as a program or work area.

  The control unit 36 temporarily stores (stores) a member ID, a wireless biosensor ID, and the like input by the member ID display setting unit 34a and the sensor ID display setting unit 34b or input by the operation input unit 32 in the information storage unit 35a. Control for transmitting the member ID / sensor ID input processing unit 36a for performing the control processing and the member ID / wireless biosensor ID of the information storage unit 35a to the analysis server 40 (management device) via the communication unit 31. The member ID / sensor ID transmission processing unit 36b for processing, the wireless biosensor ID and the end information input by the operation input unit 32 or the setting input by the sensor ID display setting unit 34b and the end information display setting unit 34c A sensor ID / end information input processing unit 36c that performs a control process of temporarily storing (storing) in the information storage unit 35a, and the information storage unit 35a Sensor ID / end information transmission processing unit 36d for performing control processing to transmit the linear biosensor ID / end information to the analysis server 40 (management device) via the communication unit 31, the other processing unit 36f, and these And a module control unit 36e that controls the execution order of each unit and the control by each unit.

  The other processing unit 36f includes various control processing units by executing other various software.

  Here, regarding the reception terminal, the correspondence relationship with the configuration requirements described in the present invention will be described. The control unit 36 corresponds to “reception terminal control means” in the present invention. Further, the “reception terminal” is a plurality of biometric information installed from the first communication device attached to the user who uses each of the divided areas obtained by dividing the specific area into a plurality of areas. It is possible to communicate with the management apparatus that receives the analysis result physical quantity information that is received via any one of the second communication apparatuses and that analyzes the biological information. At this time, the “reception terminal control means” associates the first identification information for identifying the first communication device and the user identification information of the user with respect to the management device based on the operation input. Control to output.

  In the reception terminal 30 having the above-described configuration, the input control process in which the member ID / sensor ID input processing unit 36a of the control unit 36 temporarily stores (stores) the member ID, the wireless biosensor ID, and the like in the information storage unit 35a. Then, the member ID / sensor ID transmission processing unit 36b of the control unit 36 transmits the member ID / wireless biosensor ID of the information storage unit 35a to the analysis server 40 (management device) via the communication unit 31. .

  On the other hand, in the receiving terminal 30, when the sensor ID / end information input processing unit 36c of the control unit 36 performs an input control process of temporarily storing (storing) the wireless biometric sensor ID, the end information, and the like in the information storage unit 35a, the control is performed. The sensor ID / end information transmission processing unit 36d of the unit 36 transmits the wireless biosensor ID / end information of the information storage unit 35a to the analysis server 40 (management device) via the communication unit 31.

[1.6] (Detailed configuration of each device: analysis server)
The user's biometric information acquired by the wireless biosensor 10 is collected and analyzed by the analysis server 40 via the receiving terminal 20.

  As shown in FIG. 2, the analysis server 40 holds a reception processing program unit 41 that processes information received from the reception terminal 30 and a correspondence between the user ID and the sensor ID of the wireless biosensor 10 distributed to the user. A biometric sensor user information storage unit (biological sensor user DB) 42, a biometric information storage unit (biological information DB) 43 for recording user biometric information, and a receiving terminal 20 installed on the floor. Facility map information storage unit (facility map DB) 44, which is a database that holds associations of exercise types, an analysis engine unit 45 that analyzes the amount of exercise of the user, and an analysis storage unit (analysis that is referred to in the analysis of the amount of exercise) DB) 46, an analysis result information storage unit (analysis result DB 47) for recording results analyzed by the analysis engine 46, and a database for storing user information A certain member information storage unit (member DB) 48, a display program unit 49 for displaying information in the analysis result DB 47, a reception processing program unit 51 for processing information received from the receiving terminal 20, and a clock means for holding time information And a timer 52.

  As shown in FIG. 6, the analysis server 40, which is an example of a management apparatus, is an information processing apparatus (computer) that operates under program control, and stores a management program, various data necessary for the program, an instrument program, and the like. And a storage unit 40a that also functions as a storage processing unit that stores data such as a work area and a database during program execution while storing various programs and various data installed from the information storage medium 56. A display unit 53 for displaying various information, an operation input unit 54 for operating and inputting data on a display screen (various input fields, etc.) of the display unit 53, and various signals and data. A communication unit 55 that functions as a transmission / reception unit for transmitting and receiving, and a control unit that controls each of these units. It is configured to include a control section 40b, a.

  The “management program” includes a reception processing program unit 41, an analysis engine unit 45, a display program unit 49, a reception processing program unit 51, and the like.

  Examples of the storage unit 40a include one or a plurality of hard disks, a memory (RAM, etc.), and the like. Examples of the control unit 40b include one or a plurality of CPUs or MPUs, or a CPU added with a program ROM. Examples of the display unit 53 include an LCD and a CRT. Examples of the operation input unit 54 include a keyboard and a mouse.

  The communication unit 55 performs various controls for communicating with the outside (for example, a server or other communication system), and functions thereof are hardware such as various processors or communication ASICs, programs, and the like. It can be realized by. For example, the communication unit 55 is capable of communicating with a communication protocol such as TCP / IP, communication functions such as various wireless LANs, and IEEE1394 or USB (USB 2.0 or the like) as a data transfer protocol. A communication function based on a data transfer protocol of the high-speed serial bus may be provided.

  The information storage medium 56 can be realized by hardware such as an optical disk (CD, DVD), a magneto-optical disk (MO), a magnetic disk, a hard disk, a magnetic tape, or a memory (ROM).

  The control unit 40b performs various processes of the present embodiment based on a program (data) stored in the information storage medium 56. That is, the information storage medium 56 stores (records and stores) a program for causing the computer to function as each unit of the present embodiment (a program for causing the computer to implement each unit).

  Since the analysis server 40 is an information processing device (computer) used by the user, the analysis server 40 may have a network-related function, such as a desktop, laptop computer, or other information device having a wireless / wired communication function, or the like. Any computer, such as a computer similar to the above, may be used.

  Also, some of the blocks in the block diagram shown in FIG. 6 (for example, reference numerals 41a, 41b, 41c, 41d, 41e, 41f, 45a, 45b, 45c, 45d, 45e, 45f, 45g, 45h, 49a, 49b, 49c). 49d, 49e, 51a, 51b, 51c, 51d, 51e, 51f, 51g, 51h, 51i, 57a, 57b, etc.) are executed by the computer executing various programs stored in an appropriate memory. It is a software module configuration showing a state functionalized by. That is, the physical configuration is, for example, one or a plurality of CPUs (or one or a plurality of CPUs and one or a plurality of memories), etc., but the software configuration by each means is a plurality of functions exhibited by the CPU by controlling the program. Is expressed as a component by a plurality of means. When the CPU dynamically expresses a dynamic state (a state in which each procedure constituting the program is executed) being executed by the program, each means is configured in the CPU. In a static state in which the program is not executed, the entire program (or each program part included in the configuration of each unit) that realizes the configuration of each unit is stored in a storage area such as a memory. The explanation of each means shown below can be interpreted as a computer functionalized by a program together with the functions of the program, or a plurality of electronic circuits permanently functionalized by specific hardware. Of course, it can also be interpreted as an explanation of a device consisting of blocks. Therefore, these functional blocks can be realized in various forms by hardware only, software only, or a combination thereof, and is not limited to any one.

[1.6.1] (Data structures of various DBs constituting the storage unit)
The storage unit 40 includes a biosensor user information storage unit 42 (biosensor user DB), a biometric information storage unit 43 (biological information DB), a facility map information storage unit 44 (facility map DB), and an analysis memory. A unit 46 (analysis DB), an analysis result information storage unit 46 (analysis result DB), and a member information storage unit 48 (member DB) are configured.

  The biosensor user information storage unit 42 (biosensor user DB) includes a member ID for identifying a user, a sensor ID for identifying the wireless biosensor 10, and a use start time (for example, year) of the user's motion area. (Month / day / hour / minute / second) and use end time of the user's exercise area are associated with each other and function as an accumulation processing unit that performs accumulation processing in the first storage area.

  Specifically, as shown in FIG. 10, the data structure D110 of the biosensor user information storage unit 42 includes a first structure D111 of member ID information that is a member ID of the user, and a wireless biometric used by the user. The second structure D112 of sensor ID information that is the wireless biosensor ID of the sensor, the third structure D113 of start time information that is the time when the reception terminal 30 performs start registration, and the time when the reception terminal 30 performs end registration It holds information such as the fourth structure D114 of the end time information.

  The biological information storage unit 43 (biological information DB) includes a member ID for identifying a user, a sensor ID for identifying the wireless biological sensor 10, exercise type information indicating the type of exercise in the segmented exercise region, and the segmented exercise region. Time information indicating the user's use time (for example, in minutes and seconds) and heart rate information indicating the heart rate per minute for the heart rate which is an example of the user's biometric information. It functions as an accumulation processing unit that is associated with each other and accumulated in the second storage area.

  Specifically, as shown in FIG. 12, the data structure D130 of the biometric information storage unit 43 includes the first structure D131 of member ID information that is a member ID of the user and the wireless biosensor 10 used by the user. The second structure D132 of sensor ID information related to the wireless biosensor ID indicating the type, the third structure D133 of exercise type information indicating the type of exercise performed by the user, and the biometric information acquisition indicating the time when the biometric information is acquired Information such as the fourth structure D143 of time information and the fifth structure D144 of heart rate information relating to heart rate, which is an example of the “biological information” of the user, is stored.

  The facility map information storage unit 44 (facility map DB) associates a terminal ID for identifying the receiving terminal 20 with exercise type information indicating the type of exercise in each segmented exercise region in the third storage region. It functions as an accumulation processing unit that performs accumulation processing.

  Specifically, as shown in FIG. 11, the data structure D120 of the facility map information storage unit 44 includes a first structure D121 of terminal ID information which is a terminal ID of the receiving terminal 20 installed on the floor, and the receiving terminal. 20 stores and holds information such as a device installed in a range where communication from the wireless biosensor 10 can be received, and a second structure D122 of exercise type information indicating the type of exercise performed in the range.

  The analysis storage unit 46 (analysis DB) stores exercise type information indicating the type of exercise in the segmented exercise region, unit calorie consumption information corresponding to the type of exercise (for example, per minute), and type of exercise. Corresponding coefficient information such as large coefficient, medium coefficient, and small coefficient is associated with each other and functions as an accumulation processing unit that performs accumulation processing in the fourth storage area.

  Specifically, as shown in FIG. 14, the data structure D140 of the analysis storage unit (analysis information storage unit) 46 includes a first structure D141 of exercise type information, which is information indicating the type of exercise, and a plurality of structures. Second structure D142 of unit calorie consumption information indicating calorie consumption per minute due to exercise corresponding to a specific exercise type from information corresponding to exercise type, and calorie consumption calculation when exercise amount (acquired biophysical quantity) is large The third structure D143 of the large coefficient information (first coefficient information) which is information indicating the coefficient for, and the coefficient which is information indicating the coefficient for calculating calorie consumption when the amount of exercise (obtained biophysical quantity) is normal 4th structure D144 of information (2nd coefficient information), and the coefficient small information (3rd coefficient information) which is information which shows a coefficient for calorie consumption calculation when the amount of exercise (acquisition biophysical quantity) is small. Structure D145, holds information such.

  The analysis result information storage unit 47 (analysis result DB) includes a member ID for identifying the user, exercise time information indicating the total exercise time in the exercise region (total of each exercise time in each segmented exercise region), exercise The exercise content information indicating the content of each exercise in each segmented exercise region used by the user in the region and the calorie consumption information indicating the total calories consumed in the exercise region are associated with each other in the fifth storage region. It functions as an accumulation processing unit that performs accumulation processing.

  Specifically, as shown in FIG. 13, the data structure D150 of the analysis result information storage unit 47 (analysis result DB) is performed by the user with the first structure D151 of the member ID information which is the member ID of the user. A second structure of total exercise time information indicating the total time of each exercise, a third structure D153 of exercise content information which is information indicating one or more types of exercise performed by the user, and the user exercises The fourth structure of the calorie consumption information, which is the amount of exercise consumed, is stored.

  In the member information storage unit 48 (member DB), a member ID for identifying a user, name information indicating the name of the user, gender information indicating the gender of the user, and the like are associated with each other. It functions as an accumulation processing unit that performs accumulation processing in the storage area.

  Specifically, as shown in FIG. 9, the data structure D100 of the member information storage unit 48 (member DB) includes the first structure D101 of member ID information that is a user identifier such as a fitness club member number and the use. Information such as the second structure D102 of the name information of the user and the third structure D103 of the sex information of the user.

Here, regarding the data structure, the correspondence relationship with the configuration requirements described in the present invention will be described. The first structure D121 and the second structure D122 of the facility map information storage unit (facility map DB) 44 refer to the present invention. The “first structure portion” can be configured. At this time, the “data structure” is a plurality of pieces of biological information from the first communication device attached to the user who uses each divided area obtained by dividing the specific area into a plurality of areas. And is used for processing of analyzing the biological information performed by a computer that manages the biological information.
The “first structure unit” includes second identification information (for example, terminal ID information of D121 shown in FIG. 11) for identifying the second communication device, and type information (for example, FIG. 11) indicating the type of usage form of the divided area. And the exercise type information of D122 shown in FIG.

In addition, the second structure D132, the first structure D131, and the fifth structure D144 of the biological information storage unit (biological information DB) 43 can constitute the “second structure unit” according to the present invention. At this time, the “second structure unit” includes first identification information for identifying the first communication device (for example, sensor ID information of D132 shown in FIG. 12) and user identification information for identifying the user (for example, FIG. 12) (member ID information of D131 shown in FIG. 12) and the biological information (for example, heart rate information of D144 shown in FIG. 12) are stored correspondingly.
These “first structure units” belong to the user by the computer acquiring the corresponding type information based on the second identification information received from the second communication device together with the biological information. This is used to perform an area use form grasping process for grasping the type of use form of the divided area. In addition, the “first structure unit” and the “second structure unit” are used in the area use form grasping process when the computer selectively controls each analysis calculation method of the biological information according to each of the divided areas. The analysis calculation method is selected based on the type information of the grasped segmented area, the analysis calculation is performed based on the biological information by the selected analysis calculation method, and the analysis calculation result physical quantity An analysis operation for controlling to perform processing of writing information to a specific storage area in association with the user identification information corresponding to the first identification information received via the second communication device together with the biological information Used to perform control processing.

[1.6.2] (Control unit)
The control unit 40b is a reception processing program unit 41 that operates when receiving information transmitted from the receiving terminal 20, an analysis engine unit 45 that performs analysis, and a display program that performs control to display analysis results in the analysis engine unit 45. Unit 49, reception processing program unit 51 that operates upon reception of information transmitted from reception terminal 30, other processing units 57a, execution order of these units, and analysis control unit 57b that controls each unit, It is comprised including.

  With such a configuration, the control unit 40b receives the information (biological information / wireless biosensor ID / terminal ID) from the receiving terminal 20 at the reception processing program unit 41, and receives the information (member ID, The reception processing program unit 51 receives the sensor ID and end information). Based on both of the program units 41 and 51, the analysis engine unit 45 analyzes the biological information, and the analysis result can be displayed on the display terminal 60 by the display program unit 49. This analysis result becomes a different analysis result according to the type of motion of each segmented region.

[1.6.2.1] (Reception processing program part)
The reception processing program unit 41 includes a biological information / sensor ID / terminal ID reception processing unit 41a, a reception time information acquisition processing unit 41b, an exercise type information acquisition processing unit 41c, a member ID information acquisition processing unit 41d, and biological information. A write processing unit 42e and a reception processing program module control unit 41f are included.

  The biological information / sensor ID / terminal ID reception processing unit 41a performs a control process of receiving the biological information / sensor ID / terminal ID transmitted from the receiving terminal 20.

  The reception time information acquisition processing unit 41b performs a control process of acquiring the current time (reception time) with reference to the timer 52.

  The exercise type information acquisition processing unit 41c refers to the facility map information storage unit 44 (facility map DB) and performs a control process of acquiring the exercise type associated with the received terminal ID.

  The member ID information acquisition processing unit 41d refers to the biosensor user information storage unit 42 (biosensor user DB) and performs control processing for acquiring a member ID associated with the received sensor ID.

  The biometric information writing processing unit 41e adds the received sensor ID and biometric information to the acquired member ID, exercise type, and current time, and sends the respective information to the biometric information storage unit 43 (biological information DB). Control processing to write to.

  The reception processing program module control unit 41f controls the execution order of these units, and includes a biological information / sensor ID / terminal ID reception processing unit 41a, a reception time information acquisition processing unit 41b, an exercise type information acquisition processing unit 41c, and a member ID. The information acquisition processing unit 41d and the biological information writing processing unit 42e are executed in this order. Thereby, the biometric information is written.

  In the reception processing program unit 41 configured as described above, the reception processing program module control unit 41f executes the biological information / sensor ID / terminal ID reception processing unit 41a to transmit the biological information transmitted from the receiving terminal 20. A control process for receiving the sensor ID / terminal ID is performed. Further, the reception processing program module control unit 41f executes the reception time information acquisition processing unit 41b, refers to the timer 52, and acquires the current time (reception time). Next, the reception processing program module control unit 41f executes the exercise type information acquisition processing unit 41c, refers to the facility map information storage unit 44 (facility map DB), and acquires the exercise type associated with the received terminal ID. . Subsequently, the reception processing program module control unit 41f causes the member ID information acquisition processing unit 41d to execute, refers to the biosensor user information storage unit 42 (biosensor user DB), and is a member associated with the received sensor ID. Get an ID. Finally, the reception processing program module control unit 41f executes the biometric information writing processing unit 41e, and adds the received sensor ID and biometric information to the acquired member ID, exercise type, and current time. Each information is written in the biological information storage unit 43 (biological information DB).

[1.6.2.2] (Analysis engine part)
The analysis engine unit 45 includes a sensor ID reception processing unit 45a, a member ID / start time / end time acquisition processing unit 45b, an exercise type / time / heart rate information acquisition processing unit 45c, and a unit consumption calorie coefficient information acquisition processing unit. 45d, an exercise time calculation processing unit 45e, a calorie consumption calculation processing unit 45f, an analysis result information writing processing unit 45g, and an analysis engine module control unit 45h.

  The sensor ID reception processing unit 45a performs control processing for receiving the sensor ID transmitted by the reception processing program unit 41.

  The member ID / start time / end time acquisition processing unit 45b refers to the biosensor user information storage unit 42 (biosensor user DB), and acquires the member ID, start time, and end time associated with the received sensor ID. Perform control processing.

  The exercise type / time / heart rate information acquisition processing unit 45c refers to the biological information storage unit 43 (biological information DB), and sets the time among the plurality of types of exercise, time, and heart rate associated with the received sensor ID. A control process is performed to acquire the one within the range of the start time and end time acquired.

  The unit calorie consumption coefficient information acquisition processing unit 45d refers to the analysis storage unit 46 (analysis DB) using a plurality of acquired exercise types, time and heart rate pairs, and unit calorie consumption associated with the exercise type. In addition, a control process is performed to acquire either a large coefficient, a medium coefficient, or a small coefficient according to the average heart rate. In this example, it is assumed that a large coefficient 473 is acquired when the average heart rate is 160 or more, a middle coefficient 474 is acquired when the average heart rate is 120 to 160, and a small coefficient 475 is acquired when the average heart rate is 120 or less.

  The exercise time calculation processing unit 45e performs control processing for calculating the total sum of time as the total exercise time.

  The calorie consumption calculation processing unit 45f sets the product of the total time, the unit calorie consumption, and the coefficient (large coefficient, medium coefficient, or small coefficient) as the calorie consumption in this type of exercise. This calculation is performed for all types of exercise, and calculation control processing is performed in which the sum of calories consumed is the total calories consumed.

  The analysis result information writing processing unit 45g obtains the acquired member ID, the calculated total exercise time, the set sum of the exercise types, and the calculated total consumed calories, respectively, as the member ID and the exercise of the analysis result information storage unit 47 (analysis result DB). The control process which records as time, the content of exercise, and calorie consumption is performed.

  The analysis engine module control unit 45h controls the execution order of these units, and includes a sensor ID reception processing unit 45a, a member ID / start time / end time acquisition processing unit 45b, and an exercise type / time / heart rate information acquisition processing unit 45c. The unit calorie coefficient information acquisition processing unit 45d, the exercise time calculation processing unit 45e, the calorie consumption calculation processing unit 45f, and the analysis result information writing processing unit 45g are executed in this order. Thereby, the analysis result information is written.

  In the analysis engine unit 45 configured as described above, the analysis engine module control unit 45h causes the sensor ID reception processing unit 45a to execute and receives the sensor ID transmitted by the reception processing program unit 41. The analysis engine module control unit 45h executes the member ID / start time / end time acquisition processing unit 45b, refers to the biosensor user information storage unit 42 (biosensor user DB), and sets the received sensor ID. The associated member ID, start time, and end time are acquired.

  Subsequently, the analysis engine module control unit 45h executes the exercise type / time / heart rate information acquisition processing unit 45c, refers to the biological information storage unit 43 (biological information DB), and performs a plurality of processes associated with the received sensor ID. Of the set of exercise type, time, and heart rate, the one within the range of the start time and end time acquired is acquired. Furthermore, the analysis engine module control unit 45h executes the unit calorie consumption coefficient information acquisition processing unit 45d, and uses the acquired sets of exercise types, time, and heart rate to store the analysis storage unit 46 (analysis DB). , One of the large coefficient, medium coefficient, and small coefficient is acquired according to the unit calorie consumption linked to the exercise type and the average heart rate.

  Next, the analysis engine module control unit 45h executes the exercise time calculation processing unit 45e, and calculates the total sum of the times as the total exercise time. Further, the analysis engine module control unit 45h executes the calorie consumption calculation processing unit 45f, and calculates the product of the total time, the unit calorie consumption, and the coefficient (coefficient large, coefficient medium, or coefficient small) in this exercise type. Calorie consumption. This calculation is performed for all types of exercise, and calculation control processing is performed in which the sum of calories consumed is the total calories consumed.

  Finally, the analysis engine module control unit 45h causes the analysis result information writing processing unit 45g to execute the acquired member ID, the calculated total exercise time, the set sum of the exercise types, and the calculated total consumed calories, respectively. It records as member ID of the memory | storage part 47 (analysis result DB), exercise time, exercise content, and calorie consumption.

[1.6.2.3] (Display program part)
The display program unit 49 includes a member ID reception processing unit 49a, an analysis result information acquisition processing unit 49b, a name / gender information acquisition processing unit 49c, an analysis result information display control processing unit 49d, and a display program module control unit 49e. , Including.

  The member ID reception processing unit 49a performs a control process for receiving the member ID transmitted from the display terminal 60.

  The analysis result information acquisition processing unit 49b refers to the analysis result information storage unit 47 (analysis result DB), and performs control processing for acquiring information such as exercise time, exercise content, and calorie consumption associated with the received member ID.

  The name / sex information acquisition processing unit 49c refers to the member information storage unit 48 (member DB), and performs control processing for acquiring information such as name and sex associated with the received member ID.

  The analysis result information display control processing unit 49d transmits information such as name, sex, exercise time, exercise content, and calorie consumption to the display terminal 60, and the display terminal 60 receives the name, sex, exercise time, exercise content, and calorie consumption. Control processing to display information such as on the display screen.

  The display program module control unit 49e controls the execution order of these units, and includes a member ID reception processing unit 49a, an analysis result information acquisition processing unit 49b, a name / gender information acquisition processing unit 49c, and an analysis result information display control processing unit 49d. , In this order. Thereby, analysis result information can be displayed on a display terminal.

  In the display program unit 49 configured as described above, the display program module control unit 49e executes the member ID reception processing unit 49a and receives the member ID transmitted from the display terminal 60. Then, the display program module control unit 49e executes the analysis result information acquisition processing unit 49b, refers to the analysis result information storage unit 47 (analysis result DB), and exercise time, exercise content, and consumption associated with the received member ID. A control process for acquiring information such as calories is performed. Further, the display program module control unit 49e executes the name / gender information acquisition processing unit 49c, refers to the member information storage unit 48 (member DB), and acquires information such as name and gender associated with the received member ID. To do. Finally, the display program module control unit 49e causes the analysis result information display control processing unit 49d to execute, and transmits information such as name, sex, exercise time, exercise content, and calorie consumption to the display terminal 60. Information such as name, gender, exercise time, exercise content, calories burned is displayed on the display screen.

[1.6.2.4] (Reception processing program part)
The reception processing program unit 51 includes a member ID / sensor ID reception processing unit 51a, a reception time information acquisition processing unit 51b, a registration information writing processing unit 51c, and a first reception processing program module control unit 51d. Consists of. These focus on the process of storing the start time in the biosensor user information storage unit 42 (biosensor user DB).

  Further, the reception processing program unit 51 includes a sensor ID / end information reception processing unit 51e, an end time information acquisition processing unit 51f, an end time information writing processing unit 51g, a sensor ID transmission processing unit 51h, and a second A reception processing program module control unit 51i. These focus on the process of storing the end time in the biosensor user information storage unit 42 (biosensor user DB).

  The member ID / sensor ID reception processing unit 51a performs control processing for receiving the member ID / sensor ID from the reception terminal 30.

  The reception time information acquisition processing unit 51 b performs a control process for acquiring the current time with reference to the timer 52.

  The registration information writing processing unit 51c writes information such as the member ID, sensor ID, and start time in the biometric sensor user information storage unit 43 (biosensor user DB) together with the received member ID and sensor ID. I do.

  The first reception processing program module control unit 51d controls the execution order of these units, and includes a member ID / sensor ID reception processing unit 51a, a reception time information acquisition processing unit 51b, a registration information writing processing unit 51c, in this order. Let it run.

  The sensor ID / end information reception processing unit 51e performs control processing for receiving the end information and the sensor ID transmitted from the reception terminal 30.

  The end time information acquisition processing unit 51f refers to the timer 52 and performs control processing for acquiring current time information when the end information transmitted from the reception terminal 30 and the sensor ID are received.

  The end time information writing processing unit 51g performs a control process of writing end time information in the biosensor user information storage unit 42 (biosensor user DB) corresponding to the received sensor ID.

  The sensor ID transmission processing unit 51 h performs control processing for transmitting the sensor ID from the reception processing program unit 51 to the analysis engine unit 45.

  The second reception processing program module control unit 51i controls the execution order of these units, and includes a sensor ID / end information reception processing unit 51e, an end time information acquisition processing unit 51f, an end time information writing processing unit 51g, and a sensor. The ID transmission processing unit 51h is executed in this order. Thereby, the start time information and the end time information, which are the premise of the analysis, are written and used for analysis by the analysis engine unit 45.

  In the reception processing program unit 51 configured as described above, first, the first reception processing program module control unit 51d causes the member ID / sensor ID reception processing unit 51a to execute and the member ID / sensor from the reception terminal 30. Receive the ID. Subsequently, the first reception processing program module control unit 51d causes the reception time information acquisition processing unit 51b to execute and refers to the timer 52 to acquire the current time. Further, the first reception processing program module control unit 51d causes the registration information writing processing unit 51c to execute information such as the member ID, sensor ID, and start time together with the received member ID and sensor ID. Is written in the person information storage unit 43 (biological sensor user DB).

  On the other hand, the second reception processing program module control unit 51i causes the sensor ID / end information reception processing unit 51e to execute and receives the end information and the sensor ID transmitted from the reception terminal 30. Subsequently, the second reception processing program module control unit 51i executes the end time information acquisition processing unit 51f, refers to the timer 52, and receives the end information and the sensor ID transmitted from the reception terminal 30. Get time information. Further, the second reception processing program module control unit 51i causes the end time information writing processing unit 51g to execute, and ends the biosensor user information storage unit 42 (biosensor user DB) corresponding to the received sensor ID. Write time information. In addition, the second reception processing program module control unit 51 i causes the sensor ID transmission processing unit 51 h to execute, and transmits the sensor ID from the reception processing program unit 51 to the analysis engine unit 45.

  Each of the other processing units 57a performs various processes necessary for other control and management devices.

  Here, regarding the analysis server 40 (management device), the correspondence relationship with the configuration requirements described in the present invention will be described. The biological information / sensor ID / terminal ID reception processing unit 41a according to the present embodiment is referred to as the present invention. “Identification information acquisition means” can be configured. The “identification information acquisition means” receives the first identification information and the biological information from the first communication device and the second identification information from the second communication device from the second communication device, and receives the second identification information and the first identification information. 1 Identification information and biological information are acquired.

  Further, the “exercise type information acquisition processing unit 41 c” can constitute “region use form grasping means” according to an aspect of the present invention. In one aspect of the “area usage form grasping means”, the second usage information registered in advance is referred to area usage form diagram information indicating the correspondence between the type information indicating the type of usage form of the divided area, and the second Based on the second identification information and the first identification information from the communication device, the type of use form of the divided area to which the user belongs is grasped. Furthermore, in another aspect of the “area usage form grasping means”, the divided area to which the user belongs based on the type information indicating the use form of the divided area associated with the second identification information and the first identification information. Understand the type of usage.

Further, the “management device” is a plurality of biometric information installed from the first communication device attached to the user who uses each divided area obtained by dividing the specific area into a plurality of areas. It accepts via any one of the second communication devices, functions as a device for managing the biological information and processing a request from a communicable accepting terminal.
At this time, the “first registration unit” according to the present invention can be configured by the registration information writing processing unit 51 c of the present embodiment. The “first registration unit” is configured to associate the user identification information for identifying the user with the first identification information for identifying the first communication device and the start time information based on a request from the reception terminal. A process of writing to one storage area is performed.
Further, the “second registration means” according to the present invention can be configured by the end time information writing processing unit 51g of the present embodiment. The “second registration unit” performs a process of writing the first identification information and the end time information in association with each other on the basis of a request from the reception terminal.

Further, the “management device” is a plurality of biometric information installed from the first communication device attached to the user who uses each divided area obtained by dividing the specific area into a plurality of areas. It accepts via any one of the second communication devices and functions as a device for managing the biological information and displaying the analysis result physical quantity on a communicable display terminal.
At this time, the “identification information receiving means” according to the present invention can be configured by the member ID reception processing unit 49a of the present embodiment. The “identification information receiving means” performs a process of receiving user identification information for identifying the user from the display terminal used by the user.
Further, the “analysis calculation control means” according to one aspect of the present invention can be configured by the analysis engine unit 45 of the present embodiment. One aspect of the “analysis calculation control means” is that the type information indicating the use form of the partitioned area associated with the second identification information for identifying the second communication device, and the first identification information for identifying the first communication device Based on the user identification information associated with, the type of usage of the segmented area to which the user belongs is grasped, and the analysis calculation method selected based on the type information of the identified segmented area is used. Analysis processing of the biometric information of the person is performed, and the analysis result physical quantity information calculated by the analysis calculation is associated with the user identification information and written into a specific storage area.
In addition, the “result output unit” according to the present invention can be configured by the analysis result information acquisition processing unit 49b and the analysis result information display control processing unit 49d of the present embodiment. The “result output unit” acquires the analysis result physical quantity information and the type information corresponding to the user identification information analyzed by the analysis calculation control unit, and displays the analysis result physical quantity information and the type information in the display Processing to output to the terminal is performed.

  Furthermore, the “user information storage processing means” according to the present invention can be configured by the biological information storage unit (biological information DB) 43 of the present embodiment. The “user information storage processing means” stores the user identification information and the first identification information in association with each other. Furthermore, the “display control means” according to the present invention can be configured by the display program unit 49 of the present embodiment. The “display control means” selects and controls an analysis result physical quantity corresponding to the user based on a request from the display terminal, transmits the analysis result physical quantity to the display terminal, and transmits the analysis result physical quantity to the display terminal. The display is controlled.

[1.6.2.5] (About calorie consumption calculation processing unit)
The calorie consumption calculation processing unit 45f includes an exercise time calculation unit 45f-1, an average heart rate calculation unit 45f-2, a first heart rate determination unit 45f-3, and a second heart rate determination unit 45f-4. A coefficient determination unit 45f-5, a calorie consumption calculation unit 45f-6, a total calculation unit 45f-7, and a calculation control unit 45f-8 that controls the execution procedure and control of each unit. Is done.

  The exercise time calculation unit 45f-1 refers to the biological information storage unit 43 (biological information DB), and performs a process of calculating the exercise time of the specific exercise type, how long the specific exercise type has been performed. .

  The average heart rate calculation unit 45f-2 performs a process of calculating the average heart rate at the exercise time calculated by the exercise time calculation unit 45f-1 from the heart rate information counted every minute. .

  The first heart rate determination unit 45f-3 determines whether or not the “average heart rate” calculated by the average heart rate calculation unit 45f-1 is equal to or higher than the first heart rate (for example, 160). Control processing to determine is performed.

  When the average heart rate is lower than the first heart rate (for example, 160) in the first heart rate determination unit 45f-3, the second heart rate determination unit 45f-4 determines the average heart rate. Control for determining whether or not the “average heart rate” calculated by the calculation unit 45f-2 is between the second heart rate (for example, 120) or more and less than the first heart rate (for example, 160). Process.

  When the first heart rate determination unit 45f-3 determines that the average heart rate is equal to or higher than the first heart rate (for example, 160), the coefficient determination unit 45f-5 stores the analysis memory. The first determination process for acquiring the value of the first coefficient (large coefficient) of the corresponding motion type is performed with reference to the unit 46 (analysis DB).

  The coefficient determination unit 45f-5 uses the second heart rate determination unit 45f-4 to have an average heart rate that is greater than or equal to a second heart rate (for example, 120) and less than the first heart rate (for example, 160). If it is determined that it is between, the analysis storage unit 46 (analysis DB) is referred to, and a second determination process for acquiring the value of the second coefficient (medium) of the corresponding exercise type is performed. .

  Further, the coefficient determination unit 45f-5 uses the second heart rate determination unit 45f-4 to have an average heart rate that is greater than or equal to the second heart rate (for example, 120) and less than the first heart rate (for example, 160). If it is determined that the time is not between, the analysis storage unit 46 (analysis DB) is referred to, and a third determination process is performed to acquire the value of the third coefficient (small coefficient) of the corresponding exercise type.

  The coefficient determination unit 45f-5 is configured to perform the first, second, and third based on the determination results of the first heart rate determination unit 45f-3 and the second heart rate determination unit 45f-4. A selection control process is performed as one of the determination processes.

  The calorie consumption calculation unit 45f-6 refers to the analysis storage unit 46 (analysis DB), acquires information on the unit calorie consumption of the corresponding exercise type, the unit calorie consumption, the exercise time, and the coefficient. Based on the above, a control process for calculating the calorie consumption of the corresponding exercise type is performed.

  The total calculation unit 45f-7 calculates a calorie consumption for other exercise types and performs a control process for calculating a total calorie consumption of all exercise types (total calorie consumption calculation function). The total calculation unit 45f-7 performs control processing for calculating the total exercise time for all types of exercise (total exercise time calculation function).

  The calculation control unit 45f-8 performs a control process of writing result information (total calories consumed, total exercise time, etc.) in the analysis result information storage unit 47 (analysis result DB).

In another aspect of the “analysis calculation control means” according to the present invention corresponding to the analysis engine unit 45, each analysis calculation method of the biological information is selected and controlled in accordance with each of the divided areas, and the area use form is grasped. The analysis calculation method selected based on the type information of the segmented region grasped by the means performs analysis calculation of the biological information of the user, and the analysis result physical quantity information calculated by the analysis calculation Control is performed to perform processing for writing to a specific storage area in association with the first identification information.
At this time, the average heart rate calculating unit 45f-2, the first heart rate determining unit 45f-3, the second heart rate determining unit 45f-4, and the coefficient determining unit 45f-5 according to the present embodiment are used in the present invention. The “coefficient acquisition means” can be configured. This “coefficient acquisition means” associates in advance each stage range that defines the average value of each piece of biological information acquired at each specific time in a plurality of stages and different coefficients corresponding to each stage range. Then, it is determined which of the respective step ranges the average value is in, and the corresponding coefficient is obtained.
Moreover, the “first physical quantity calculating means” according to the present invention can be configured by the exercise time calculating unit 45f-1 and the calorie consumption calculating unit 45f-6 of the present embodiment. The “first physical quantity calculating means” includes unit physical quantity information per unit time corresponding to the type of use form in the divided area, first total exercise time information exercised in the divided area, Based on the coefficient, first physical quantity information in the segmented area is calculated.
Furthermore, the “second physical quantity calculation means” according to the present invention can be configured by the total calculation unit 45f-7 of the present embodiment. The “second physical quantity calculating means” calculates second physical quantity information that is the sum of the first physical quantity information in each divided region.

[1.6.2.6] (Overall operation of calorie consumption calculation processing unit)
The calorie consumption calculation processing unit 45f having the above-described configuration generally operates as follows. That is, the calculation control unit 45f-8 causes the exercise time calculation unit 45f-1 to execute, and calculates an exercise time of a specific exercise type. Further, the calculation control unit 45f-8 uses the exercise time calculated by the exercise time calculation unit 45f-1 from the average heart rate calculation unit 45f-2 and the heart rate information counted every minute. Calculate the average heart rate.

  Next, the calculation control unit 45f-8 causes the first heart rate determination unit 45f-3 to execute and determines whether or not the “average heart rate” is equal to or higher than the first heart rate (for example, 160). To do. If the average heart rate is less than the first heart rate (for example, 160), the calculation control unit 45f-8 subsequently causes the second heart rate determination unit 45f-4 to execute the “average heart rate”. Is between the second heart rate (for example, 120) or more and less than the first heart rate (for example, 160).

  Then, the calculation control unit 45f-8 causes the coefficient determination unit 45f-5 to execute. When the average heart rate is equal to or higher than the first heart rate (for example, 160), the first coefficient ( If the average heart rate is greater than or equal to a second heart rate (for example, 120) and less than the first heart rate (for example, 160), the second coefficient ( If the average heart rate is not greater than or equal to the second heart rate (eg, 120) and less than the first heart rate (eg, 160), the third factor (coefficient) of the corresponding exercise type A determination process is performed with a value of (small).

  Further, the calculation control unit 45f-8 causes the calorie consumption calculation unit 45f-6 to execute, and obtains information on the unit calorie consumption of the corresponding exercise type by referring to the analysis storage unit 46 (referring to the analysis DB 9). Based on the calorie consumption, the exercise time, and the coefficient, the calorie consumption of the corresponding exercise type is calculated.

  Next, the calculation control unit 45f-8 executes the total calculation unit 45f-7, calculates calories burned for other exercise types, calculates total calories burned for all exercise types, and calculates all the exercise types. The exercise time is calculated, and a control process for writing the result information (total calories consumed, total exercise time, etc.) to the analysis result information storage unit 47 (analysis result DB) is performed.

[1.6.3] (Display terminal)
The user views the analysis result using the display terminal 60. The display terminal 60 is an information processing apparatus that operates under program control, and is preferably an information device having an input function, a display function, and a communication function, such as a personal computer or a mobile phone.

  As shown in FIG. 8, the display terminal 60 is an information device used by the user. The display terminal 60 operates under program control, displays various information and performs various settings, and this display. An operation input unit 62 (for example, a keyboard / mouse) for operating and inputting data on the display screen (various input fields, etc.) of the unit 64, and a communication unit 61 (transmission / reception means) for transmitting / receiving various signals / data. A storage unit 65 (for example, a memory) for storing various programs and various data, other units 68 necessary for configuring the display terminal 60, and a control unit 66 (for example, for controlling these units) CPU etc.).

  The display terminal 60 operates under program control, and has any network-related function, such as a desktop, laptop computer, other information equipment having a wireless / wired communication function, or a similar computer. It can be a computer, whether mobile or fixed.

  Some blocks (for example, reference numerals 66a, 66b, 66c, 66d, 66e, 66f, etc.) in the block diagram shown in FIG. 8 are executed by the computer by executing various programs stored in an appropriate memory. It is a software module configuration showing a functionalized state. That is, the physical configuration is, for example, one or a plurality of CPUs (or one or a plurality of CPUs and one or a plurality of memories), etc., but the software configuration by each means is a plurality of functions exhibited by the CPU by controlling the program. Is expressed as a component by a plurality of means. When the CPU dynamically expresses a dynamic state (a state in which each procedure constituting the program is executed) being executed by the program, each means is configured in the CPU. In a static state in which the program is not executed, the entire program (or each program part included in the configuration of each unit) that realizes the configuration of each unit is stored in a storage area such as a memory. The explanation of each means shown below can be interpreted as a computer functionalized by a program together with the functions of the program, or a plurality of electronic circuits permanently functionalized by specific hardware. Of course, it can also be interpreted as an explanation of a device consisting of blocks. Therefore, these functional blocks can be realized in various forms by hardware only, software only, or a combination thereof, and is not limited to any one.

  The display unit 64 includes a member ID display setting unit 64a for setting a member ID in a specific input field to be displayed, an analysis result information display output unit 64b for displaying and outputting analysis result information from the analysis server 40, And a display control unit 64c that controls the display mode of each unit.

  The storage unit 65 temporarily stores the member ID input by the member ID display setting unit 64a or the member ID input by the operation input unit 62, the analysis result information displayed on the analysis result information display output unit 64b, and the like. Information storage unit 35a and various information necessary for the display terminal 60 or other storage unit 65b functioning as a program or work area.

  The control unit 66 performs a control process of temporarily storing (storing) a member ID or the like input by the member ID display setting unit 64a or the member ID input by the operation input unit 62 in the information storage unit 65a. A member ID transmission processing unit 66b for performing control processing for transmitting the member ID of the information storage unit 65a to the analysis server 40 (management device) via the communication unit 61, and analysis result information from the analysis server 40. An analysis result information reception processing unit 66c that performs a control process for receiving the communication result through the communication unit 61 and temporarily storing the analysis result information in the information storage unit 65a; and the analysis result information of the information storage unit 65a in the display unit 64 An analysis result information output processing unit 66d that performs control processing for display output on the analysis result information display output unit 64b, the other processing unit 66f, and the execution order of these units. Configured to include a, a module control unit 66e which controls by each part.

  The other processing unit 66f includes, for example, various control processing units that perform control processing for displaying other various screens.

  Here, regarding the display terminal, the correspondence with the configuration requirements described in the present invention will be described. The control unit 66 of the present embodiment corresponds to the “display terminal control means” in the present invention. The “display terminal” is a plurality of second information installed over the specific area, the biological information from the first communication device attached to the user who uses each of the divided areas divided into the specific area. It is formed so as to be communicable with a management device that receives information via any one of the communication devices and provides analysis result physical quantity information obtained by analyzing the biological information. At this time, the “display terminal control means” outputs the user identification information for identifying the user to the management device based on the operation input, so that the management device can change the second communication device. Based on the type information indicating the usage form of the segmented area associated with the second identification information to be identified and the user identification information associated with the first identification information for identifying the first communication device. And analyzing the biometric information of the user by the analysis calculation method selected based on the type information of the segmented area obtained by grasping the type of usage of the segmented area to which the user belongs After performing the calculation and performing the process of writing the analysis result physical quantity information obtained by the analysis calculation in correspondence with the user identification information in a specific storage area, the management apparatus performs the analysis result physical quantity corresponding to the user identification information. Affection And the acquired type information, the analysis result is acquired physical quantity information and the type information is accepted from the management device to display the analysis result physical quantity information and the type information.

  When the member ID is input to the display terminal 60 having the above-described configuration, the analysis server 40 analyzes the analysis result information corresponding to the member ID (for example, information such as exercise time, exercise content, calorie consumption, name, sex, etc.). ) And transmitted to the display terminal 60, the analysis result information can be displayed.

[1.7] (Operation of each block diagram of information terminal and management device of communication system)
Operations in the block diagrams of FIGS. 2, 3, and 4 of the communication system of the present embodiment configured as described above are performed as follows. This operation is for explaining how each component of the block diagrams of FIGS. 2, 3, and 4 works.

  As illustrated in FIG. 3, when the wireless biological sensor 10 detects heartbeat information, which is an example of biological information, by the heartbeat information detection unit 12 a of the biological information acquisition unit 11, the control unit 16 is a sensor that is a wireless biological sensor ID. An ID is attached to the biological information and transmitted from the information transmission unit 15.

  Radio waves from the wireless biosensor 10 are received by any of the receiving terminals 20. In the received receiving terminal 20, as shown in FIG. 4, when the biological information (heart rate information) with the sensor ID is received via the information receiving unit 21 by the control unit 24 of the receiving terminal 20, the terminal ID is given. The processing unit 24b further gives the terminal ID of the receiving terminal to the biological information (heart rate information) with the sensor ID.

  The control unit 24 of the receiving terminal 20 transmits the biometric information (heart rate information) with the sensor ID and the terminal ID to the analysis server 40 via the information transmitting unit 22.

  In the analysis server 40, when the biological information (heart rate information) with the sensor ID and the terminal ID is received, the reception processing program unit 41 of the control unit 40b receives the received current time information (reception time information) from the timer 52. get.

Further, the reception processing program unit 41 refers to the facility map information storage unit 44 and acquires exercise type information corresponding to the received terminal ID. For example, in the example of FIG. 1, since the radio wave of the wireless biosensor 10 of the user P1 is received by the receiving terminal 20 (A01), the data structure D120 of the facility map information storage unit 44 (see FIG. 11). Thus, the exercise type information corresponding to the terminal ID (A01) of the receiving terminal 20 is “yoga”.
Next, the reception processing program unit 41 refers to the biometric sensor user information storage unit 42 and acquires member ID information corresponding to the received sensor ID. Thereby, it is determined by the member ID who the received biometric information from the wireless biosensor is.
Further, the reception processing program unit 41 writes the acquired member ID information, sensor ID information, exercise type information, reception time information (current time information), and biological information (heart rate information) in the biological information storage unit 43. I do.

  Next, when the user finishes exercising, the wireless biosensor 10 is returned to the receptionist, and the receptionist uses the reception terminal 30 to input the sensor ID and the end information. Based on the operation input of the receptionist, the reception processing program unit 51 of the control unit 40b of the analysis server 40 receives the sensor ID and the end information, acquires the current time information (end time information) by the timer 52, and uses the biosensor. A control process of writing the end time in the person information storage unit 42 is performed. Further, the reception processing program unit 51 transmits the sensor ID to the analysis engine unit 45 of the control unit 40b.

  When the analysis engine unit 45 of the control unit 40b receives the sensor ID, the analysis engine unit 45 refers to the biometric sensor user information storage unit 42 and acquires member ID information, start time information, and end time information corresponding to the sensor ID. Next, the analysis engine unit 45 refers to the biological information storage unit 43, and acquires exercise type information corresponding to the sensor ID, time information every minute, and heart rate information every minute. Further, the analysis engine unit 45 refers to the analysis storage unit 46, and acquires unit calorie consumption information corresponding to the exercise type information and large, medium, and small coefficient information.

  The analysis engine unit 45 calculates the average heart rate and the time taken for the exercise from the heart rate information per minute and the time information per minute. The analysis engine unit 45 determines a coefficient from the average heart rate. The analysis engine unit 45 calculates the calorie consumption from the unit calorie consumption, the coefficient, and the time. The analysis engine unit 45 performs a control process of writing the member ID, exercise time, exercise content, and calorie consumption in the analysis result information storage unit 47. The user can refer to the analysis result information of the analysis server 40 using the display terminal 60.

[2.1] (Processing procedure)
Next, in order to support the method claim of the present invention, various processing procedures in the communication system having the above-described configuration will be described with reference to FIGS. Hereinafter, “processing related to registration”, “process related to biometric sensor user DB”, “process related to biometric information DB”, “process related to analysis result DB”, “process related to result display” , “Detailed processing of calorie consumption calculation” will be described in this order.

[2.2] (Registration related processing)
First, in the member information storage unit 48 (member DB), member ID, name, gender, and the like, which are information relating to fitness club users, are registered in advance <member ID / name / gender registration processing step>. Similarly, in the facility map DB 44, a terminal ID of a receiving terminal installed on the floor in advance and an exercise type associated with the receiver are registered as a terminal ID and an exercise type, respectively <terminal ID information / Exercise type information registration processing step>.

  The analysis DB 46, which is a table used to calculate the amount of exercise from the type of exercise and biological information, has a unit indicating the type of exercise, the type of exercise, and the calories consumed per minute due to the corresponding exercise. If the calorie consumption and the amount of exercise are large, medium, or small, indicate the coefficient for calculating the calorie consumption. Register the large coefficient, medium coefficient, and small coefficient. <Exercise type / calorie consumption -Coefficient registration processing step>.

[2.3] (Process related to biosensor user DB) <Registration of sensor ID>
FIG. 15 is a network sequence diagram illustrating an example of a processing procedure of processing related to sensor ID registration of the communication system according to the first embodiment of this invention.

The user applies to the fitness club receptionist before starting the exercise and acquires the wireless biosensor 10. At that time, the fitness club receptionist uses the reception terminal 30 to input the member ID of the corresponding user and the sensor ID of the distributed wireless biosensor 10 as shown in FIG.
The input member ID and sensor ID are temporarily stored in a specific storage area of the receiving terminal 30 (step S101).

The receiving terminal 30 transmits the input member ID and sensor ID stored in the specific storage area to the receiving processing program unit 51 of the analysis server 40 which is a management device (step S102).
In addition, the above-mentioned step S101-step S102 can comprise the "reception terminal control step" said to this invention. In this “reception terminal control step”, the first identification information for identifying the first communication device and the user identification information of the user are associated with each other and output to the management device based on the operation input. Take control.

  The reception processing program unit 51 performs control processing for receiving the member ID / sensor ID from the reception terminal 30 (step S103) <member ID / sensor ID reception processing step>. This step S104 corresponds to the “first identification information receiving step” in the present invention. In the “first identification information receiving step”, processing for receiving the user identification information and the first identification information is performed.

  The reception processing program unit 51 refers to the timer 52 and acquires the current time (step S104) <reception time information acquisition processing step>. This step S104 corresponds to a “start time information acquisition step” according to the present invention. In the “start time information acquisition step”, the management device performs a process of acquiring start time information.

  Further, the reception processing program unit 51 performs a process of writing information such as the member ID, sensor ID, and start time in the biosensor user DB 42 together with the received member ID and sensor ID (step S105) <Registration information writing. Processing step>. This step S105 corresponds to the “first registration step” in the present invention. In the “first registration step”, the management device performs a process of writing the user identification information, the first identification information, and the start time information in a specific storage area in association with each other.

[2.4] (Processes related to the acquisition of biological information)
FIG. 16 is a network sequence diagram illustrating an example of a processing procedure of processing related to acquisition of biological information of the communication system according to the first embodiment of this invention.

When the user attaches the wireless biosensor 10 to the body and exercises at an arbitrary place on the floor, as shown in FIG. 16, the biometric information acquisition unit 11 of the radio biosensor 10 stores the biometric information of the user (here, (Heart rate) is acquired (step S201) <biological information acquisition step>.
In this “biological information acquisition step”, the first communication device attached to the user who uses each divided area obtained by dividing the specific area into a plurality of areas acquires the user's biological information.

Next, the information transmission unit 12 of the wireless biosensor 10 acquires the biometric information acquired by the biometric information acquisition unit 110 and the sensor ID stored in the sensor ID storage unit 13, and assigns the sensor ID to the biometric information < Sensor ID giving step>.
Then, the biometric information provided with the sensor ID is transmitted by wireless communication (step S202) <biometric information / sensor ID information transmission processing step>.

In the present embodiment, as an example, information transmitted from the wireless biosensor 10 is received by the information receiving unit 21 of one receiving terminal 20. The receiving terminal 20 receives the sensor ID and the biological information from the wireless biosensor 10 (step S203) <Biometric information / sensor ID information reception processing step>.
Note that step S203 corresponds to the “identification information specifying step” according to one embodiment of the present invention. In the “identification information specifying step”, the first identification information and the biological information transmitted from the first communication device are set to the first of any of the plurality of second communication devices installed across the specific region. The second identification information for identifying the second communication device is received by the second communication device.
Furthermore, this step S203 corresponds to a “first reception step” according to another aspect of the present invention. In this “first receiving step”, the computer performs control processing for receiving, from the first communication device, first identification information for identifying the other communication device and the biological information.

  The information transmitting unit 22 of the receiving terminal 20 acquires the biometric information received by the information receiving unit 21, the sensor ID, and the terminal ID stored in the receiving terminal ID storage unit 23, and further adds the terminal ID to the biometric information with the sensor ID. <Terminal ID provision step>. This step corresponds to the “identification information adding step” in the present invention. In this “identification information adding step”, the computer performs a process of further adding second identification information for identifying itself to the biological information to which the first identification information is attached.

  And the process which transmits terminal ID, sensor ID, and biometric information to the reception process program part 41 of the analysis server 40 is performed (step S204). This step S204 corresponds to the “output step” in the present invention. In this “output step”, the computer performs a process of outputting the first identification information and the biological information with the second identification information to the management apparatus.

The transmitted biometric information / sensor ID / terminal ID is received by the analysis server 40 (step S205) <biometric information / sensor ID / terminal ID reception processing step>.
Note that step S205 corresponds to an “area identification information acquisition step” according to one embodiment of the present invention. This “area identification information acquisition step” includes the first identification information transmitted from the first communication device attached to the user who uses each divided area obtained by dividing the specific area into a plurality of areas, over the specific area. Received by any one of the plurality of second communication devices, and the computer acquires second identification information for identifying the second communication device and the first identification information. . Furthermore, this step S205 corresponds to an “identification information acquisition step” according to another aspect of the present invention. In this “identification information acquisition step”, the computer acquires the second identification information, the first identification information, and the biological information. The difference between the two is whether or not there is “biological information”. This is because the type of region can be grasped without “biological information”.

The reception process program unit 41 refers to the timer 52 and performs a process of acquiring the current time (Step S206) <Reception time information acquisition process step>.
Further, the reception processing program unit 41 refers to the facility map DB 44 and acquires the exercise type associated with the received terminal ID (step S207) <exercise type information acquisition processing step>.
This step S207 corresponds to the “area utilization form grasping step” referred to in the present invention. In this “area usage pattern grasping step”, the computer refers to area usage pattern information indicating the correspondence between the second identification information registered in advance and the type information indicating the type of usage pattern of the segmented area. Based on the second identification information and the first identification information acquired in the area identification information acquisition step, the type of usage mode of the partitioned area to which the user belongs is grasped.
Further, the reception processing program unit 41 refers to the biosensor user DB 42 and performs a process of acquiring a member ID associated with the received sensor ID (step S208) <member ID information acquisition processing step>.

  Next, the reception processing program unit 41 adds the received sensor ID and biological information to the acquired member ID, exercise type, and current time, and performs a process of writing each piece of information to the biological information DB 43 ( Step S209) <Biological information writing process step>.

[2.5] (Processing related to analysis)
FIG. 17 is a network sequence diagram illustrating an example of a processing procedure of processing related to analysis of the communication system according to the first embodiment of this invention.

After the procedure from step S201 to step S209 is repeated, when the user finishes the exercise, the user returns the wireless biosensor 10 to the fitness club receptionist. At that time, the receptionist of the fitness club uses the reception terminal 30 and inputs the sensor ID and use end information of the wireless biosensor 10 used by the user as shown in FIG. 17 (step S301).
The input sensor ID and use end information are written into a specific storage area of the receiving terminal 30 (step S302).

The reception terminal 30 transmits the input use end information and sensor ID to the reception processing program 41 of the analysis server 40 (step S302). The reception process program unit 51 performs a control process for receiving the end information and the sensor ID transmitted from the reception terminal 30 (step S303) <sensor ID / end information reception process step>.
This step S303 can constitute an “end information receiving step” according to the present invention. This “end information receiving step” performs a process of receiving the first identification information and the end information.

  The reception processing program unit 51 refers to the timer 52 and acquires the current time (step S304) <end time information acquisition processing step>. This step S304 corresponds to the “end time information acquisition step” according to the present invention. This “end time information acquisition step” performs a process of acquiring end time information based on the end information.

  Further, the reception process program unit 51 writes end time information in the biosensor user DB 42 corresponding to the received sensor ID (step S305) <end time information writing process step>. This step S305 corresponds to the “second registration step” in the present invention. In this “second registration step”, the management apparatus performs a process of writing the first identification information and the end time information in association with each other in the one storage area.

  Further, the reception process program unit 51 performs a process of transmitting the sensor ID to the analysis engine unit 45 (step S306) <sensor ID transmission process step>.

The analysis engine unit 45 receives the sensor ID transmitted by the reception processing program unit 41 (step S307) <sensor ID reception processing step>.
The analysis engine unit 45 that has received the sensor ID refers to the biosensor user DB 42 and performs a process of acquiring a member ID, a start time, and an end time associated with the received sensor ID (step S308) <member ID / start. Time / end time acquisition processing step>.

Further, the analysis engine unit 45 refers to the biometric information DB 43, and the time is within the range of the start time and the end time acquired from among a plurality of types of exercises, time, and heart rate associated with the received sensor ID. A thing is acquired (step S309) <exercise type / time / heart rate information acquisition processing step>.
The analysis engine unit 45 calculates calorie consumption due to the exercise of the corresponding user by using the combination of the plurality of exercise types, time, and heart rate acquired here.

Here, a plurality of calorie consumption calculation methods are conceivable. In the present embodiment, the method is as follows.
First, from the set of the acquired exercise type, time, and heart rate, the sum of the same type of exercise (hereinafter, the total of time) and the average value of the heart rate are calculated.

Next, the analysis DB 46 is referred to, and the unit calorie consumption linked to the exercise type and the coefficient large, medium coefficient, or small coefficient are acquired according to the average heart rate (step S310) Information acquisition processing step>.
Here, it is assumed that a large coefficient is acquired when the average heart rate is 160 or more, a medium coefficient when 120 to 160, and a small coefficient when 120 or less.

Next, the product of the total of time, the unit calorie consumption, and the coefficient (large coefficient, medium coefficient, or small coefficient) is defined as the calorie consumption in this type of exercise.
This calculation is performed for all types of exercise, and the total sum of time is defined as total exercise time, and the total of calorie consumption is defined as total calorie consumption (step S311) <consumed calorie calculation processing step>.

  The analysis engine unit 45 records the acquired member ID, the calculated total exercise time, the set sum of the exercise types, and the calculated total calorie consumption as the member ID, exercise time, exercise content, and calorie consumption of the analysis result DB 47, respectively. Perform (Step S312) <Analysis Result Information Writing Processing Step>

In addition, the above-mentioned step S307 to step S312 can further constitute the “analysis calculation control step” according to one embodiment of the present invention in the processing including the calorie consumption calculation procedure of steps S321 to S335 described later. In this “analysis calculation control step”, the computer selects and controls each analysis calculation method of the biological information in accordance with each of the segmented areas, and the type information of the segmented areas acquired in the area usage pattern determination step The analysis calculation method selected based on the analysis calculation of the biological information of the user is performed, and the analysis result physical quantity information calculated by the analysis calculation is associated with the first identification information in a specific storage area. Controls the writing process.
In the “analysis calculation control step” of another aspect of the present invention, the management device selects and controls each analysis calculation method of the biological information according to each of the divided areas, and the type information of the recognized divided areas The analysis calculation method selected on the basis of the analysis calculation method performs an analysis calculation based on the start time information, the end time information, and the biological information, and identifies the analysis result physical quantity information obtained by the analysis calculation In response to the user identification information to be performed, control is performed to perform a process of writing to another specific storage area.

[2.5] (Processing related to analysis result display)
FIG. 19 is a network sequence diagram illustrating an example of a processing procedure of processing related to analysis result display of the communication system according to the first embodiment of this invention. As shown in FIG. 19, the user can view a report on the amount of exercise performed by operating the display terminal 60 after the exercise is completed. The processing at this time will be described with reference to FIG.

  First, the user inputs his / her member ID on the display terminal 60. The input member ID information is stored in a specific storage area of the display terminal 60 (step S401).

  Next, the display terminal 60 performs a process of transmitting the input member ID to the display program unit 49 of the analysis server 40 (step S402).

  The member ID transmitted from the display terminal 60 is received by the display program unit 49 of the analysis server 40 (step S403) <member ID reception processing step>. In addition, this step S403 can comprise the "user identification information reception step" said to this invention. This “user identification information receiving step” performs a process of receiving the user identification information.

  Then, the display program unit 49 refers to the analysis result DB 47 and acquires information such as exercise time, exercise content, and calorie consumption associated with the received member ID (step S404) <analysis result information acquisition processing step>. This step S404 corresponds to the “result information acquisition step” according to the present invention. In this “result information acquisition step”, the management apparatus performs processing for acquiring analysis result physical quantity information corresponding to the user identification information.

  Further, the display program unit 49 refers to the member DB 48 and acquires information such as name and sex associated with the received member ID (step S405) <name / gender information acquisition processing step>.

  Further, the display program unit 49 performs a process of transmitting information such as name, sex, exercise time, exercise content, and calorie consumption to the display terminal 60 (step S406) <analysis result information display control process step>. This step S406 corresponds to the “result output step” in the present invention. In this “result output step”, the management device performs a process of outputting the analysis result physical quantity information.

The display terminal 60 performs processing for receiving information such as name, sex, exercise time, exercise content, calorie consumption from the analysis server 40 (step S407) <analysis result information reception processing step>.
The display terminal 60 performs a control process for displaying the received information such as name, sex, exercise time, exercise content, and calorie consumption on the display screen (step S408) <analysis result information display control step>.

  The “display control step” according to the present invention can be configured by the above steps S401 to S408. In this “display control step”, based on an operation input, user identification information for identifying the user is output to the management device, so that the management device identifies the second communication device. Based on the type information indicating the usage form of the segmented area associated with the second identification information and the user identification information associated with the first identification information identifying the first communication device, the utilization The type of use form of the segmented region to which the user belongs is grasped, and the analysis calculation method of the user's biological information is performed by the analysis computation method selected based on the type information of the grasped segmented region. Then, after performing the process of writing the analysis result physical quantity information that has been analyzed and calculated in correspondence with the user identification information into a specific storage area, the management device analyzes the physical quantity information corresponding to the user identification information. Get the finely the type information, the analysis result is acquired physical quantity information and the type information is accepted from the management device to display the analysis result physical quantity information and the type information.

  In addition, in this Embodiment, although the case where information, such as total exercise time and a total calorie consumption, was displayed as information displayed on the display terminal 60 was illustrated, it is not limited to this. Each calorie consumption and each exercise time for each type of exercise may be displayed.

[2.6] (Calculation step for calorie consumption)
Next, details of the calorie consumption calculating step for calculating calorie consumption will be described with reference to FIG. FIG. 18 is a flowchart illustrating an example of a more detailed processing procedure of the calorie consumption calculation process in the processing procedure of the communication system according to the first embodiment of the present invention.

  First, as shown in FIG. 18, the biological information storage means (biological information DB) is referred to, and how long the specific exercise type has been performed is calculated to calculate the exercise time of the specific exercise type ( Step S321) <Exercise time calculation step>.

  Subsequently, a process of calculating an average heart rate during the exercise time from the heart rate information counted every minute is performed (step S322) <average heart rate calculation step>.

  Next, it is determined whether or not the “average heart rate” calculated in step S322 is equal to or higher than a first heart rate (for example, 160) (step S323) <first stage coefficient determination step>.

  When it is determined in the first step coefficient determination step of step S323 that the average heart rate is equal to or higher than the first heart rate (for example, 160), the analysis DB is referred to and the corresponding exercise type is determined. A process of acquiring the value of the first coefficient (coefficient large) is performed (step S327) <first coefficient acquisition step>.

  On the other hand, if the average heart rate is less than the first heart rate (for example, 160) in the first step coefficient determination step in step S323, then, the “average” calculated in step S322 is then performed. It is determined whether or not “heart rate” is between the second heart rate (for example, 120) or more and less than the first heart rate (for example, 160) (step S324) <second stage coefficient determination step>.

  When it is determined in the second coefficient determination step of step S324 that the average heart rate is between the second heart rate (for example, 120) or more and less than the first heart rate (for example, 160), With reference to the analysis DB, a process of acquiring the value of the second coefficient (medium) of the corresponding exercise type is performed (step S326) <second coefficient acquisition step>.

On the other hand, if it is determined in the second coefficient determination step of step S324 that the average heart rate is not between the second heart rate (for example, 120) or more and less than the first heart rate (for example, 160). Referring to the analysis DB, a process of acquiring the value of the third coefficient (small coefficient) of the corresponding exercise type is performed (step S325) <third coefficient acquisition step>.
The above-described steps S322 to S327 can constitute the “coefficient acquisition step (included in the analysis calculation control step)” according to the present invention. This “coefficient acquisition step” associates in advance each stage range in which the average value of each piece of biological information acquired at each specific time is defined in a plurality of stages and different coefficients corresponding to each stage range. Then, it is determined which of the respective step ranges the average value is in, and the corresponding coefficient is obtained.

  Next, referring to the analysis DB, a process of acquiring information on the unit calorie consumption of the corresponding exercise type is performed (step S328) <unit calorie consumption acquisition step>.

Subsequently, based on the unit calorie consumption, the exercise time, and the coefficient, a process of calculating the calorie consumption of the corresponding exercise type is performed (step S331) <single calorie consumption calculation step>.
In addition, by this step S331, the “first physical quantity calculating step” according to one aspect of the present invention can be configured. This “first physical quantity calculation step” includes unit physical quantity information per unit time according to the type of exercise in the segmented area, first total exercise time information that has exercised in the segmented area, and the coefficient. Based on the above, the first physical quantity in the segmented area is calculated.
Furthermore, this “step S331” can constitute the “segmented area consumed calorie calculating step” according to another aspect of the present invention. In this “segmented region consumption calorie calculation step”, unit consumption calorie information per unit time according to the type of exercise in the segmented region, segmented region exercise time information exercised in the segmented region, and the coefficient Based on the above, calorie consumption information in the segmented area is calculated.

  Furthermore, the process which determines whether the calorie consumption was calculated about another exercise | movement type is performed (step S332) <multiple-type calorie consumption calculation determination step>.

If it is determined in step S332 that calories consumed are not calculated for other exercise types, the process returns to step S321. On the other hand, if it is determined in step S332 that the calorie consumption has been calculated for other exercise types, a process of calculating the total exercise time for all exercise types is performed (step S333) <total exercise time calculation step> .
Next, a process of calculating total calories burned for all types of exercise is performed (step S334) <total calories burned calculation step>.
The “total calorie consumption calculation step” includes the calorie consumption information of the segment area calculated in the “segment area calorie consumption calculation step” and the types of exercise of the plurality of segment areas used by the user. Based on the above, the total calorie consumption, which is the sum of the calorie consumption of each of the divided areas, is calculated.
And the process which writes result information (total calorie consumption, total exercise time, etc.) into analysis result DB is performed (step S335).

  In this way, based on the unit calorie consumption, by multiplying the coefficient such as “first coefficient”, “second coefficient”, “third coefficient”, etc. Accurate calories burned can be calculated without using physical information such as weight.

  As described above, according to the present embodiment, the user of each segmented area of the specific area is the biological information of the user during exercise (including the heart rate <heart rate, pulse: heart rate and pulse are medically different Meaningful, but normal healthy people and no arrhythmia, they can be regarded as the same, so they may be referred to simply as “beat rate”>, electrocardiogram, body temperature, three-dimensional motion acceleration Etc.) and acquire a wireless biosensor capable of wireless transmission. It is preferable that the radio wave transmitted by the wireless biosensor can reach a certain distance or less.

  Further, a plurality of receiving terminals that receive signals from the wireless biosensor are installed over a specific area. The receiving terminal is placed in a specific area (for example, a floor) where the user exercises (for example, radio waves transmitted from a specific wireless biosensor can be received by one receiving terminal out of a plurality of receiving terminals. In the case of being constituted by an RFID tag reader, even if a plurality of receiving terminals receive, it can be specified by zone determination in which the receiving terminal with the stronger radio wave intensity emitted by the RFID tag is the zone to which the user belongs. However, it is more preferable that it is arranged in the form of a matrix with an interval of>). Each receiving terminal has a unique identifier.

  The analysis server holds information (biological sensor user DB) for associating a user with a biometric sensor. Further, the analysis server holds in advance area usage pattern information (floor map information) <facility map DB> such as placement of exercise equipment in a specific area (floor) and a segmented area (area) where a specific exercise is performed. .

  Thus, when the user exercises at any location in the specific area (floor), any of the receiving terminals receives information transmitted from the wireless biosensor attached to the user. Based on the identifier of the receiving terminal and the floor map information, it is possible to determine what type of exercise the user has performed (which exercise equipment has been used or which exercise space has been used). .

  Furthermore, the processing content of the acquired information can be changed according to the place where it occurred. That is, the type of exercise performed by the user in the exercise facility can be grasped, and various exercise quantities corresponding to the type of exercise can be provided to the user. Specifically, by changing the calculation method (analysis calculation method) such as calories burned, which is an example of the analysis result physical quantity, according to the type of exercise at the place where the biometric information of the user is generated, accurate analysis The calorie calculation which is an example of a result physical quantity can be performed.

In addition, since the user can calculate the physical quantity of the analysis result (for example, calorie calculation) simply by attaching the wireless biosensor, it is not necessary to perform an operation on each exercise device.
Furthermore, since it is not necessary to install a device other than the receiving terminal of the sensor on the floor (specific area), the system configuration becomes easy.

  In the present embodiment, the wireless biosensor itself has information transmission unit and unique information (sensor ID: first identification information) for identifying position information. No need to install new equipment. Further, the receiving terminal need only have a function of transmitting only the identification information held by itself to the analysis server. Furthermore, the entire process is performed in a certain direction, and the processing time can be shortened.

  In the present embodiment, it is possible to grasp whether the user has actually exercised or what kind of exercise has been performed in the studio. Especially when it is used in such a way that multiple types of exercises are performed in one studio (even in an environment where there are multiple types of exercises with or without various exercise equipment) Can understand the type of exercise.

  Specifically, in a "studio" that uses one (area or facility) for multiple purposes, depending on the situation, multiple exercises such as yoga and tai chi may be performed in one "studio" at the same time. There is. Or, even with the same Tai Chi, depending on the type of Qi Gong Tai Chi and health martial art Tai Chi, etc. There are many cases where a plurality are formed.

  In such a case, even if there is a state where each group is divided into different areas on the same floor (room) and each group does not use exercise equipment, each movement can be grasped. . That is, even if the user changes the type of exercise on the same floor without leaving the gate, the type of exercise is grasped, and various biological information analysis according to the type of exercise is performed in detail. It can be calculated. In particular, a user who has performed multiple events (yoga, tai chi, etc.) in one facility such as a studio program can grasp the physical quantities of various analysis results such as calories burned for each event.

[Second Embodiment]
Next, a second embodiment according to the present invention will be described with reference to FIG. In the following, description of substantially the same configuration or processing procedure as in the first embodiment will be omitted, and only different parts will be described. FIG. 20 is an explanatory diagram showing an example of the second embodiment of the communication system of the present invention.

  In the first embodiment described above, the exercise area is configured as one floor (that is, a room such as a specific floor of an exercise facility). However, in this embodiment, the exercise area includes a plurality of hierarchies (multiple floors). The case where it comprises is shown.

Specifically, in the communication system 100 of the present embodiment, as shown in FIG. 20, a first-floor exercise area F1, a second-floor exercise area F2, and a third-floor exercise area F3 are configured. is doing.
In the exercise area F1 on the first floor, as in the first embodiment, a plurality of receiving terminals 120 are installed in a substantially matrix shape (mesh shape) of i rows and j columns. In the example of FIG. 20, for example, a total of nine receiving terminals 20 of 3 × 3 are installed.
Similarly to the first-floor movement area F1, the plurality of receiving terminals 120 are also installed in the i-th row and j-th column movement area F2 and the third-floor movement area F3. ing.

  Here, in the exercise area F1 on the first floor, each divided exercise area (AR1-1, AR1-2) divided according to the exercise form (type of exercise) is formed. In the exercise area F2 on the second floor, each divided exercise area (AR2-1, AR2-2) divided according to the exercise form (type of exercise) is formed. In the exercise area F1 on the third floor, each divided exercise area (AR3-1, AR3-2) divided according to the exercise form (type of exercise) is formed.

  The communication system 100 according to the present embodiment is formed so as to be able to communicate with a plurality of receiving terminals 120 arranged in a matrix for each layer and a plurality of receiving terminals 120 via a network N1. And an analysis server 140 to be managed. Other wireless biosensors and terminals have the same configuration as that of the first embodiment, and thus illustration and description thereof are omitted.

  The analysis server 140 includes a biosensor user DB 142 and a facility map DB 144. Since other components of the analysis server 140 are the same as those in the first embodiment, illustration and description are omitted.

The facility map DB 144 has exercise area diagram information for each hierarchy of the exercise area F1, the exercise area F2, the movement area F2 of the second floor, and the exercise area F3 of the third floor.
At this time, the function in the analysis server showing the correspondence relationship in the first embodiment, and the “area use form grasping means” referred to in the present invention performs the second identification for each hierarchy of the specific area. The type of exercise is grasped by referring to exercise area diagram information indicating the correspondence between the information and the exercise type information unique to the segmented area.

  In the communication system 100 having the above-described configuration, the user in the first floor movement area F1 receives any of the reception terminals 120 of the plurality of reception terminals 120 on the first floor from the radio wave sensor. Detect. The analysis server 140 can grasp the type of exercise being performed in the divided area to which the user belongs by referring to the exercise area diagram information of the exercise area F1 on the first floor in the facility map DB.

  Similarly, the user in the movement area F2 on the second floor detects one of the plurality of receiving terminals 120 on the second floor from the wireless biosensor. The analysis server 140 can grasp the type of exercise being performed in the divided area to which the user belongs by referring to the exercise area diagram information of the exercise area F2 on the second floor in the facility map DB.

  In addition, the user in the movement area F3 on the third floor detects one of the plurality of receiving terminals 120 on the third floor from the transmission wave from the wireless biosensor. The analysis server 140 can grasp the type of exercise being performed in the divided area to which the user belongs by referring to the exercise area diagram information of the exercise area F3 on the third floor in the facility map DB.

  As described above, according to the present embodiment, it is possible to grasp the type of exercise even in an exercise facility having a plurality of hierarchies while exhibiting the same operational effects as the first embodiment. . In particular, even in an environment of an exercise facility that is difficult to grasp with a GPS function or the like, it is possible to easily grasp each type of motion in each segmented motion area in detail.

  In this embodiment, when grasping the type of user's exercise performed in each divided area in the specific area, the wireless biosensor including, for example, an RFID tag and the like are installed over the specific area. In addition, a communication structure with a plurality of receiving terminals (for example, an RFID tag reader with an antenna unit) has been shown. However, when GPS is used, the following disadvantages occur, which is not preferable.

  That is, radio waves from GPS satellites are greatly attenuated in buildings, so that general self-supporting GPS receivers are hardly available indoors. In other words, GPS cannot be used in areas where there are many shielded forests and dense buildings, as well as underground and tunnels.

  Various high-sensitivity technologies such as assist GPS (A-GPS) have been proposed, but general AGPS can be used indoors by receiving assist information from a server via a cellular phone network or the like. However, it is not sensitive enough to be used anywhere indoors. Further, in an area where infrastructure construction is necessary and assist information cannot be obtained, the user cannot obtain a position information service. Furthermore, A-GPS requires a communication fee each time assist information is obtained. Furthermore, with A-GPS, which has a positioning accuracy of about 20 m in a building, positioning cannot be performed unless it is close to a window even indoors. In addition, a device that transmits the same signal as the signal broadcast by the GPS satellite must be installed on the ground to cover the space where the GPS signal does not reach.

  In contrast, in the present embodiment, for example, a wireless biosensor including an RFID tag or the like and a plurality of receiving terminals (for example, an RFID tag reader with an antenna unit) installed over a specific area are formed in a communication structure. Therefore, the user's position within the floor can be grasped in detail. Moreover, even if a multi-layered structure is formed such as the first floor, the second floor, and the third floor of the sports facility, each segment area in each layer can be grasped in detail.

[Third Embodiment]
Next, a third embodiment according to the present invention will be described with reference to FIG. In the following, description of the substantially similar configuration of the first embodiment will be omitted, and only different parts will be described. FIG. 21 is a block diagram showing an example of the third embodiment of the communication system of the present invention.

  In the above-described embodiment, one analysis server is installed in one athletic facility. However, in this embodiment, analysis servers are installed in a plurality of athletic facilities, and each of these analysis servers is used as a data. A configuration example in the case of management by the center server of the center is disclosed.

Specifically, as shown in FIG. 21, the communication system 200 according to the present embodiment includes a receiving terminal group 210m-1 installed in a substantially matrix form in a facility BL1, and the receiving terminal group 210m-1. The analysis server 240-1 of the facility BL1 formed to be communicable via the network LN1 in the facility BL1, the reception terminal group 210m-2 of the facility BL2, the network LN2, the analysis server 240-2, ..., receiving terminal group 210m-n of facility BLn, network LNn, analysis server 240-n, each analysis server (240-1 to 240-n) of each facility (BL1 to BLn), and network WN And a center server 270 of the data center formed so as to be communicable.
Note that illustration and description of the same configuration as the first embodiment such as a wireless biosensor are omitted.

The center server 270 has the same function as the analysis server of the first embodiment, and also centrally manages information of each analysis server (240-1 to 240-n).
At this time, the function in the analysis server that shows the correspondence in the first embodiment, and the “area use form grasping means” according to the present invention performs the second identification for each of the plurality of specific areas. The type of exercise is grasped by referring to exercise area diagram information indicating the correspondence between the information and the exercise type information unique to the segmented area.

In the communication system 200 configured as described above, first, biological information from a wireless biological sensor (not shown) attached to a user in the segmented region of the facility BL1 is a plurality of information constituting the receiving terminal group 210m-1. Are received by any one of the receiving terminals. The biological information from the receiving terminal group 210m-1 is subjected to information accumulation processing in the analysis server 240-1 via the network LN1, and various analysis calculations are performed, and analysis result information is accumulated. Similarly, the biometric information and the analysis result information are respectively stored in the analysis server 240-2,..., And the analysis server 240-n for the other facilities BL2,.
The biological information and analysis result information of the user are collected from the analysis server 240-1,..., Analysis server 240-n to the center server 270 via the network WN, and the biological information of each facility BL1,. And analysis result information can be managed centrally.

  As described above, according to the present embodiment, each system is managed in a plurality of regions by constructing a system that manages each analysis server by the center server while achieving the same operational effects as the first embodiment. Even in the case of a club having each exercise facility of a branch, it is possible to provide a system configuration capable of acquiring biometric information according to the type of exercise in each segmented exercise area within each exercise facility.

  In this embodiment, each analysis server is installed in each facility. However, the center server is configured so that the center server can directly communicate with the receiving terminal of each facility without installing each analysis server. Also good. Accordingly, the data center side has an analysis server, and a plurality of fitness clubs can use the analysis server.

[Fourth Embodiment]
Next, a fourth embodiment according to the present invention will be described with reference to FIG. In the following, description of the substantially similar configuration of the first embodiment will be omitted, and only different parts will be described. FIG. 22 is a block diagram showing an example of the fourth embodiment of the communication system of the present invention.

  In the above-described embodiment, the biometric information acquisition unit that acquires biometric information with the biometric wireless sensor is configured to detect only the user's heart rate. However, in this embodiment, the biometric information acquisition unit includes the beat rate. In addition to information (including heartbeat and pulse), electrocardiogram information, pulse wave information, body temperature information, three-dimensional acceleration information, and the like can be acquired simultaneously.

  Specifically, as shown in FIG. 22, the wireless biosensor 310 used in the communication system of the present embodiment includes a biometric information acquisition unit 311 that can acquire various types of biometric information about the user, and the wireless biosensor itself. A sensor ID storage unit 314 that stores a wireless biosensor ID for identifying the wireless biosensor ID, and various biometric information acquired by the biometric information acquisition unit 311 and the wireless biosensor ID are received by a receiving terminal (in the present embodiment, FIG. (Not shown), an information transmission unit 315 that transmits information, an operation unit 317 that can perform various operations, and various biological information acquired by the biological information acquisition unit 311 while controlling these components. And a control unit 316 that performs a control process of attaching the wireless biometric sensor ID of the sensor ID storage unit 314 and transmitting the information via the information transmission unit 315. .

  The biological information acquisition unit 311 includes a beat number information detection unit 312a that detects beat number information, a beat number information signal processing unit 313a that performs signal processing of the beat number information detected by the beat number information detection unit 312a, An electrocardiogram information detector 312b for detecting electrocardiogram information, an electrocardiogram information signal processor 313b for performing signal processing of the electrocardiogram information detected by the electrocardiogram information detector 312b, and a pulse for detecting pulse wave information A wave information detection unit 312c, a pulse information signal processing unit 313c that performs signal processing of the pulse wave information detected by the pulse wave information detection unit 312c, a body temperature information detection unit 312d that detects body temperature information, and the body temperature A body temperature information signal processing unit 313d that performs signal processing of body temperature information detected by the information detection unit 312d, a three-dimensional acceleration information detection unit 312e that detects three-dimensional acceleration information, and this three-dimensional acceleration information detection A three-dimensional acceleration information signal processing unit 313e that performs signal processing of the three-dimensional acceleration information detected in 312e, another biological information detection unit 312f that detects other biological information, and this other biological information detection unit And other biological information signal processing unit 313f that performs signal processing of other biological information detected in 312f.

  In addition, as the beat information detection unit 312a, for example, a first format that measures with a finger, a second format that measures with the chest by wearing a chest belt, a third format with photoelectric that measures with the wrist, and earlobe Although the 4th format etc. to measure are mentioned, Any of these may be sufficient. The “beat rate” includes the pulse rate and the heart rate.

  It is preferable that the electrocardiogram information detection unit 312b can mainly acquire an electrocardiogram waveform, and examples include a format in which measurement is performed with a chest or the like.

  Examples of the pulse wave information detection unit 312c include a photoelectric pulse wave sensor.

  An example of the body temperature information detection unit 312d is a temperature sensor. It is preferable that the temperature sensor can measure body surface temperature (skin temperature), rectal temperature, external ear temperature, and the like. The body temperature detector 321d includes various types such as a type that can be worn on the wrist and a type that can be worn on the ankle.

  Examples of the three-dimensional acceleration information detection unit 312e include a three-axis acceleration sensor. There are types that can be worn on the wrist.

  The other biological information detection unit 312f functions as a detection unit that detects various other biological information, and examples of detected “biological information” include blood pressure information, myoelectric information, sweating information, and body fat. Examples include rate information, blood flow information, bone mass information, moisture information, altitude information (vertical movement), SPO2 value (blood saturated oxygen concentration information), environmental temperature information, environmental atmospheric pressure information, and the like.

  Other various sensors included in the other biological information detection unit 312f may include, for example, a three-axis gyro sensor, a brightness sensor, a pressure sensor, a skin sensor, a humidity sensor, an infrared sensor, and the like.

  The operation unit 317 has a function of selecting specific biological information (one or more) necessary for the user from among the plurality of biological information. Of course, it is also possible to acquire all biological information.

  In the wireless biosensor 310 configured as described above, the control unit 316 has an acquisition control function for selectively acquiring specific biometric information (one or more) based on an operation from the operation unit 317. Furthermore, control which gives sensor ID to the acquired one or some biometric information, and transmits with respect to any one of several receiving terminals via the information transmission part 315 is performed. The transmitted one or more pieces of biological information with the sensor ID are accumulated in the analysis server.

(Analysis server)
Since the wireless biosensor used in the communication system of the present embodiment has the above configuration, the configuration of the analysis server preferably employs the following configuration. As shown in FIG. 23, the analysis server 340 is an information processing apparatus (computer) that operates by program control, and includes a storage unit 341, a control unit 343, and other units 342. The other parts 342 have the same configuration as that of the first embodiment.

  Here, in the present embodiment, the control unit 343 uses a single calculation mode in which only one piece of biological information is used for analyzing and calculating the analysis result physical quantity, and a plurality of pieces of biological information for analyzing and calculating the analysis result physical quantity. Combined calculation mode for performing calculation in combination, a function for performing switching selection control (second mode switching control unit: not shown), and further, when calculating the analysis result physical quantity, A coefficient determination method mode for determining and calculating a coefficient according to the type of exercise and the size of the acquired biophysical quantity in a similar manner, and a table of correspondence between the biometric information and the analysis result physical quantity information (for each type of exercise) in advance By switching the table reference method mode for calculating the analysis result physical quantity information and the mixed mode using coefficients in the table reference method mode by referring to the table Function performs-option control (first mode switching control unit: not shown) configured to include a. This will be specifically described below.

  23 (for example, reference numerals 343a, 343b, 343c, 343d, 343e, 343f, 343g, 343h, 343i, 343j, 343k, 343l, 343m, 343n, 344a, 344b, 344c, 344d) 344e, 344f, 345, 346, 347, etc.) are software module configurations that show a state functionalized by the computer by executing various programs stored in an appropriate memory. That is, the physical configuration is, for example, one or a plurality of CPUs (or one or a plurality of CPUs and one or a plurality of memories), etc., but the software configuration by each means is a plurality of functions exhibited by the CPU by controlling the program. Is expressed as a component by a plurality of means. When the CPU dynamically expresses a dynamic state (a state in which each procedure constituting the program is executed) being executed by the program, each means is configured in the CPU. In a static state in which the program is not executed, the entire program (or each program part included in the configuration of each unit) that realizes the configuration of each unit is stored in a storage area such as a memory. The explanation of each means shown below can be interpreted as a computer functionalized by a program together with the functions of the program, or a plurality of electronic circuits permanently functionalized by specific hardware. Of course, it can also be interpreted as an explanation of a device consisting of blocks. Therefore, these functional blocks can be realized in various forms by hardware only, software only, or a combination thereof, and is not limited to any one.

The storage unit 341 includes another storage unit 341g. In the other storage unit 341g, the type of exercise used in the “coefficient determination method mode” and the coefficient values at each stage (for example, the first coefficient <large>, the second coefficient <medium of the first embodiment) >, Third coefficient <small>, etc. <types of biological information, types of analysis physical quantities, etc.> may be configured in more or less stages if necessary) A coefficient value reference table showing the correspondence is included.
Furthermore, the other storage unit 341g includes a biophysical quantity reference table that shows the correspondence between each stage that defines a biophysical quantity reference value for determining the coefficient value of each stage and the reference biophysical quantity.

  This coefficient value reference table is formed according to the type of biological information (acquired biological physical quantity). For this reason, the “coefficient value reference table” is, for example, a correspondence relationship with each step coefficient value for calculating an analysis result physical quantity (for example, calorie consumption, exercise intensity) based on the type of exercise and the number of beats. 1 coefficient value reference table, second coefficient value reference table showing correspondence relationship with each step coefficient value for calculating physical quantity (for example, estimated value of VO2max) based on type of exercise and electrocardiogram information, type of exercise 3rd coefficient value reference table showing the correspondence between each step coefficient value for calculating the analysis result physical quantity based on the pulse wave, and the analysis result physical quantity based on the type of exercise and body temperature (for example, basal metabolism, calorie consumption, etc.) ) Is a fourth coefficient value reference table showing the correspondence with each step coefficient value for calculating, and an analysis result physical quantity (for example, calories consumed) based on the type of motion and three-dimensional motion acceleration A fifth coefficient value reference table showing a correspondence relationship with each step coefficient value to be output, each of the calculation result physical quantities based on the type of exercise and other biological information (for example, blood pressure, body fat percentage, etc.) A sixth coefficient value reference table showing the correspondence with the step coefficient values, and the like.

Further, the coefficient value reference table includes (for example, in the first embodiment, calorie consumption is calculated based on the number of beats, so that the unit calorie consumption per unit <unit biophysical quantity> and the type of exercise are also included. It was necessary to make a table in association with each other.) Prepare various tables that correlate various other physical parameters as necessary, such as the type of biophysical quantity to be acquired and the type of analysis result physical quantity. It doesn't matter. In this case, it is needless to say that the “unit biophysical quantity” is not necessarily used.
In the calculation, usually, a specific stage is determined depending on which reference biophysical quantity the acquired biophysical quantity is close to by referring to the biophysical quantity reference table, and a coefficient value corresponding to this stage is determined. It is determined by referring to the coefficient value standard table. At this time, since the coefficient value reference table includes the exercise type information as an element, the coefficient value is determined in consideration of the exercise type information. Then, an analysis result physical quantity is calculated by calculating (for example, multiplying) the acquired biophysical quantity (or unit biophysical quantity), a coefficient, and other physical parameters (time in the case of calorie consumption). At this time, as other parameters, a plurality of physical parameters may be used according to the type of the analysis result physical quantity or may not be used at all. As described above, the coefficient value and unit biophysical quantity are changed and controlled according to the exercise type information, and the coefficient value is also changed and controlled depending on the magnitude of the acquired physical quantity, so that it corresponds to the exercise type (in other words, the divided area). It is possible to perform change control of the analytical calculation method.

  On the other hand, the storage unit 341 includes the following units used in the “table reference method mode”. That is, the storage unit 342 stores the first correlation table that defines the correlation between the beat number information and the analyzed physical quantity (for example, calories consumed) according to the type of exercise, and the heart-analyzed physical quantity information storage unit 341a, An electrocardiogram-analyzed physical quantity information storage unit 341b that stores a second correlation table that defines the correlation between the electrical information and the analyzed physical quantity according to the type of exercise; and a second that defines the correlation between the pulse wave information and the analyzed physical quantity. Pulse wave storing 3 correlation tables according to type of exercise-analyzed physical quantity information storage unit 341c, and body temperature storing 4th correlation table defining correlation between body temperature information and analyzed physical quantity- according to type of exercise- Analyzed physical quantity information storage unit 341d and a three-dimensional acceleration-analyzed physical quantity that stores a fifth correlation table that defines the correlation between the three-dimensional acceleration information and the analyzed physical quantity according to the type of motion. Information storage unit 341e, another biological information-analysis physical quantity information storage unit 341f that stores a sixth correlation table that defines the correlation between other biological information and the analyzed physical quantity according to the type of exercise, and the first The same configuration as the storage unit of the analysis server of the embodiment is included, and the other storage unit 341g having various functions necessary for the analysis server 340 and a function as a work area is included.

Each storage unit may be configured with a plurality of correlation tables according to the type of the analysis result physical quantity. For example, in the beat number-analysis physical quantity information storage unit 341a, when an example of the analysis result physical quantity is calorie consumption, a correlation table of the beat information and the calorie consumption of a specific exercise type, the beat information and other information Correlation table with calories burned for exercise types, analysis result physical quantity when exercise intensity is one example, correlation table between beat information and exercise intensity for specific exercise types, beat information and consumption of other exercise types A correlation table with calories may be provided. The same applies to other biological information.

  The control unit 343 receives and acquires electrocardiogram information in the same manner as the beat number information acquisition processing unit 343a that performs control processing for receiving and acquiring beat number information transmitted from the wireless biosensor via the receiving terminal. Similarly, an electrocardiogram information acquisition processing unit 343b that performs control processing, and a pulse wave information acquisition processing unit 343c that performs control processing to receive and acquire pulse wave information in the same manner, and receive and acquire body temperature information in the same manner. Other body information is received in the same manner as the body temperature information acquisition processing unit 343d that performs control processing, the three-dimensional acceleration information acquisition processing unit 343e that performs control processing that receives and acquires three-dimensional acceleration information in the same manner. The other biological information acquisition processing unit 343f that performs the control process to be acquired, and the biological information selection control unit 343g that selects and controls the biological information necessary for analysis among the biological information in each of the acquisition units. Configured to include a.

  The other biological information acquisition processing unit 343f has a function of performing processing for acquiring other various biological information, and examples of acquired “biological information” include blood pressure information, myoelectric information, sweating information, and body information. Examples include fat percentage information, blood flow information, bone mass information, moisture information, altitude information (vertical movement), SPO2 value (blood saturated oxygen concentration information), environment temperature information, environment pressure information, and the like. With these acquired information, for example, one analysis result physical quantity calculated from one acquired biological information and the other analysis result physical quantity calculated from the other biological information can be compared, or each of the one and the other You may make it calculate the average of an analysis result physical quantity.

  The control unit 343 further includes a first analysis physical quantity calculation processing unit 343h, a second analysis physical quantity calculation processing unit 343h, a third analysis physical quantity calculation processing unit 343h, and a fourth analysis physical quantity calculation processing unit 343h. The fifth analysis physical quantity calculation processing unit 343h, the sixth analysis physical quantity calculation processing unit 343h, and the analysis physical quantity total calculation processing unit 343n are configured.

  The control unit 343 further includes a heart rate related coefficient determination processing unit 344a, an electrocardiogram related coefficient determination processing unit 344b, a pulse wave related coefficient determination processing unit 344c, a body temperature related coefficient determination processing unit 344d, and a three-dimensional acceleration. The related coefficient determination processing unit 344e, the other biological information related coefficient determination processing unit 344f, the exercise type biological information selection control unit 345, and other functions having the same functional configuration as the control unit of the first embodiment. Each processing unit 346 is configured to include an execution control procedure for each of these units and an analysis control unit 347 that controls each of these units.

  Based on the beat information from the beat information acquisition processor 343a, the beat-related coefficient determination processing unit 344a is a first coefficient of the corresponding exercise type when the average beat is equal to or higher than the first beat. If the average beat number is between the second beat number and less than the first beat number, the value is the second coefficient (middle coefficient) of the corresponding exercise type and the average When the number of beats is equal to or less than the second number of beats, a determination process is performed to set the value of the third coefficient (small coefficient) of the corresponding exercise type.

  Based on the electrocardiographic information from the electrocardiogram information acquisition processing unit 343b, the electrocardiogram related coefficient determination processing unit 344b performs a corresponding exercise if the acquired physical quantity obtained from the electrocardiographic information is equal to or greater than the first acquired physical quantity. When the acquired physical quantity is between the second acquired physical quantity and less than the first acquired physical quantity, the value of the first coefficient (large coefficient) of the type is used. If the acquired physical quantity is less than or equal to the second acquired physical quantity, a determination process is performed to set the value of the third coefficient (small coefficient) of the corresponding exercise type.

  Based on the pulse wave information from the pulse wave information acquisition processing unit 343c, the pulse wave related coefficient determination processing unit 344c performs a corresponding motion when the acquired physical quantity obtained from the pulse wave information is equal to or greater than the first acquired physical quantity. When the acquired physical quantity is between the second acquired physical quantity and less than the first acquired physical quantity, the value of the first coefficient (large coefficient) of the type is used. If the acquired physical quantity is less than or equal to the second acquired physical quantity, a determination process is performed to set the value of the third coefficient (small coefficient) of the corresponding exercise type.

  The body temperature related coefficient determination processing unit 344d is configured such that the body temperature related coefficient determination processing unit 344d is based on the body temperature information from the body temperature information acquisition processing unit 343a and the body temperature or the average body temperature of unit time is equal to or higher than the first body temperature. The value of the first coefficient (large coefficient) of the corresponding exercise type, and when the body temperature is between the second body temperature and lower than the first body temperature, the second coefficient (medium) of the corresponding exercise type When the body temperature is equal to or lower than the second body temperature, a determination process is performed to set the value of the third coefficient (small coefficient) of the corresponding exercise type.

  The three-dimensional acceleration-related coefficient determination processing unit 344e is configured such that the three-dimensional acceleration-related coefficient determination processing unit 344e determines the three-dimensional acceleration based on the three-dimensional acceleration information from the three-dimensional acceleration information acquisition processing unit 343a. When the acceleration is equal to or greater than 1, the value of the first coefficient (large coefficient) of the corresponding motion type is set. When the acceleration is between the second acceleration and less than the first acceleration, the corresponding motion When the value is the value of the second coefficient (middle coefficient) of the type and the acceleration is equal to or lower than the second acceleration, a determination process is performed to set the value of the third coefficient (small coefficient) of the corresponding motion type.

  The other biological information related coefficient determination processing unit 344f, based on the other biological physical quantity information from the other biological information acquisition processing unit 343f, if the biological physical quantity information is greater than or equal to the first biological physical quantity, When the value of the first coefficient (large coefficient) of the type is set and the biophysical quantity information is between the second biophysical quantity and less than the first biophysical quantity, the second coefficient (middle coefficient) of the corresponding exercise type When the biophysical quantity information is equal to or smaller than the second physical quantity, a determination process is performed to set the value of the third coefficient (small coefficient) of the corresponding exercise type.

  The exercise type biological information selection control unit 345 selects and controls one of the calculation processing units according to the type of exercise and / or the type of biological information.

  In the “coefficient determination method mode”, the first analysis physical quantity calculation processing unit 343h has a coefficient value corresponding to the exercise type information determined by the beat-related coefficient determination processing unit 344a and the other storage unit 341g. Based on the unit biophysical quantity information (for example, unit calorie consumption) corresponding to the exercise type information from and other physical parameters (for example, time information) from the other storage unit 341g, the first analysis physical quantity (for example, calorie consumption) ) Is calculated.

In the “table reference method mode”, the first analysis physical quantity calculation processing unit 343h performs the beat number information from the beat number information acquisition processing unit 343a and the type of exercise in the beat number-analysis physical quantity information storage unit 341a. The first analysis physical quantity is calculated based on the analysis physical quantity information corresponding to and other various physical parameters.
For example, in the case of a table showing the relationship between the number of beats and oxygen intake as an example of the number-of-beats-analyzed physical quantity information storage unit 341a, the oxygen consumption and the consumption per unit time are based on the number of beats per unit time. Calorie consumption can be calculated by calculating calories and multiplying time information as other physical parameters. Here, a plurality of tables indicating the relationship between the number of beats and oxygen intake may be formed according to the type of exercise, and calculation may be performed by referring to the table corresponding to the type of exercise.

In the “mixed mode”, the first analysis physical quantity calculation processing unit 343h is configured to correspond to the analysis physical quantity corresponding to the beat number-analysis physical quantity information storage unit 341a based on the beat number information from the beat number information acquisition processing unit 343a. The first analysis physical quantity is calculated based on the information, the value of the coefficient in consideration of the type of exercise determined by the beat rate related coefficient determination processing unit 344a, and other various physical parameters as necessary. Process.
In addition, as an analysis physical quantity obtained by acquiring a heart rate, oxygen consumption, surplus oxygen consumption (EPOC), a respiratory parameter, oxygen intake etc. other than calorie consumption are mentioned, for example.
The oxygen intake is determined by oxygen intake (ml / min) = (oxygen content in arterial blood−oxygen content in venous blood) × cardiac output (l / min). Here, cardiac output = stroke volume (SV) × heart rate.
Hereinafter, since the same applies to other biological information, only the “mixed mode” will be described.

Based on the electrocardiogram information from the electrocardiogram information acquisition processing unit 343b, the second analysis physical quantity calculation processing unit 343i performs corresponding analysis physical quantity information and electrocardiogram related coefficient determination processing in the electrocardiogram-analysis physical quantity information storage unit 341b. A process of calculating the second analysis physical quantity is performed based on the coefficient value considering the type of motion determined by the unit 344b and various other physical parameters as necessary.
In addition, as an analysis physical quantity obtained by acquiring information such as electrocardiogram information, a measured value between R and R for each night, a VO2max estimated value, and the like can be given.

The third analysis physical quantity calculation processing unit 343j includes the pulse wave information from the pulse wave information acquisition processing unit 343c, the analysis physical quantity information corresponding to the type of motion in the pulse wave-analysis physical quantity information storage unit 341c, and pulse wave related information. Based on the coefficient value determined by the coefficient determination processing unit 344c, processing for calculating the third analysis physical quantity is performed.
In addition, as an analysis physical quantity obtained by acquiring information such as blood pressure and arterial sound together with the pulse group, for example, basal metabolic rate, an index related to arteriosclerosis, myocardial load index, cardiac output, total peripheral vascular resistance Etc.

Based on the body temperature information from the body temperature information acquisition processing unit 343d, the fourth analysis physical quantity calculation processing unit 343k performs the corresponding analysis physical quantity information in the body temperature-analysis physical quantity information storage unit 341d and the body temperature related coefficient determination processing unit 344d. A process of calculating the fourth analysis physical quantity is performed based on the value of the coefficient in consideration of the determined type of motion and various other physical parameters as necessary.
In addition, as an analysis physical quantity obtained by acquiring information, such as body temperature information, a basal metabolism amount, a calorie consumption, etc. are mentioned, for example.
From the viewpoint that once the body temperature rises, the basal metabolic rate rises by 12%, the basal metabolic rate can be calculated from the detected body temperature by tabulating the correlation between the body temperature and the basal metabolic rate.
And based on such a relationship, you may make it correct | amend the calorie consumption calculated from the heart rate in view of the said basal metabolism amount.

It is also assumed that the correlation between exercise intensity and body temperature is tabulated. Here, when expressed by exercise intensity (VO2max), the calorific value is proportional to VO2. However, the body temperature is preferably 37 to 39 degrees. When the environmental temperature is 26 degrees or less, the exercise intensity is constant and the body temperature shows a constant value.
Further, when the environmental temperature is 5 degrees to 30 degrees, a correlation that increases by 1 degree at 25% to 75% VO2max may be used. However, when the environmental temperature is 40 degrees, it becomes 60% VO2max, and the movement is restricted.

  In addition, as for the relationship between blood pressure and temperature, when the environmental temperature decreases, the blood flow decreases, the skin temperature decreases, and the body temperature shows a constant value. On the other hand, when the body temperature rises, the skin blood flow increases and the skin temperature rises. Such a relationship may be tabulated.

Based on the three-dimensional acceleration information from the three-dimensional acceleration information acquisition processing unit 343e, the fifth analysis physical quantity calculation processing unit 343l corresponds to the corresponding analysis physical quantity information in the three-dimensional acceleration-analysis physical quantity information storage unit 341e, Processing to calculate the fifth analysis physical quantity based on the coefficient value considering the type of motion determined by the three-dimensional acceleration related coefficient determination processing unit 344e and other various physical parameters as necessary I do.
In addition, as an analysis physical quantity obtained by acquiring information such as three-dimensional acceleration information, for example, calorie consumption is cited.
When energy metabolism is estimated from acceleration, for example, it is calculated based on the correlation between the acceleration of the waist near the center of gravity and the oxygen intake.

  The sixth analysis physical quantity calculation processing unit 343m is configured based on other biophysical quantity information from the other biometric information acquisition processing unit 343f, the corresponding analysis physical quantity information in the other bioinformation-analysis physical quantity information storage unit 341f, and other Based on the coefficient value considering the type of exercise determined by the biological information related coefficient determination processing unit 344f and other various physical parameters as necessary, a process for calculating the sixth analysis physical quantity is performed. .

The analysis physical quantity total calculation processing unit 343n controls each of these units, and when the mode selection control is performed by each of the other processing units 346, the arithmetic processing unit is set in any mode according to the mode. Select which arithmetic processing unit to use, and further control other execution operations based on the control of execution procedures when combining arithmetic processing units and the results of each arithmetic processing unit. (For example, obtaining the METS value from the calorie consumption).
For example, when the calorie consumption is analyzed and calculated from the number of beats, various calculations such as calculation in consideration of temperature and three-dimensional acceleration can be performed. Or you may make it calculate the average value of the calorie consumption calculated from the three-dimensional acceleration and the calorie consumption calculated from the beat rate.

  When the other processing units 346 calculate the analysis result physical quantity, the coefficient determination is performed by determining the coefficient according to the type of exercise and the size of the acquired biophysical quantity in substantially the same manner as in the first embodiment. The table reference method mode for calculating the analysis result physical quantity information by making a table (corresponding to each type of exercise) the correspondence relationship between the biometric information and the analysis result physical quantity information in advance and calculating the analysis result physical quantity information by referring to the table. A first mode switching control unit (not shown) that performs mode switching selection control includes a mixed mode that uses a coefficient in the reference mode.

Further, each of the other processing units 346 performs calculation by combining a single calculation mode in which only one piece of biological information is used for analyzing and calculating the analysis result physical quantity and a plurality of pieces of biological information for analyzing and calculating the analysis result physical quantity. A second mode switching control unit (not shown) that performs switching selection control between the composite operation mode and the combined arithmetic mode is included.
The single calculation mode further includes each selection mode for calculating which analysis result physical quantity (for example, calorie consumption or exercise intensity).
In the composite calculation mode, it is further possible to set which biometric information is to be incorporated from a plurality of biometric information by a combination setting unit (not shown). In addition, a physical quantity item selection unit (not shown) can select what is to be selected as the analysis result physical quantity (for example, calorie consumption or exercise intensity).

Here, the correspondence relationship with the configuration requirements described in the present invention will be described. By the beat number information detecting unit 312a and the beat number information signal processing unit 313a according to the present embodiment, the “beat number information obtaining unit” according to the present invention is described. The electrocardiogram information detection unit 312b and the pulse rate information signal processing unit 313b according to the present embodiment can constitute a “cardiac information acquisition unit” according to the present invention, and the body temperature information detection according to the present embodiment. The unit 312d and the body temperature information signal processing unit 313d can constitute a “body temperature information acquisition unit” according to the present invention. The three-dimensional acceleration information detection unit 312e and the three-dimensional acceleration information signal processing unit 313e according to the present embodiment Thus, the “three-dimensional motion acceleration information acquisition means” according to the present invention can be configured.
Further, the “analysis calculation control means” referred to in the present invention can be configured by the control unit 343 of the present embodiment. This “analysis calculation control means” is based on the function of calculating the analysis result physical quantity based on the beat information in the beat information acquisition means and the electrocardiogram information in the electrocardiogram information acquisition means. Analytical calculation, function to calculate the analysis result physical quantity, analysis calculation based on body temperature information in the body temperature information acquisition means, function to calculate the analysis result physical quantity, three-dimensional in the three-dimensional motion acceleration information acquisition means A function of performing an analysis operation based on the motion acceleration information and calculating the physical quantity of the analysis result.

  In the communication system having the above-described configuration, the wireless biosensor simultaneously acquires a plurality of types of biometric information and transmits them to the analysis server via the receiving terminal. In the analysis server 340, an analysis physical quantity, for example, calorie consumption, is calculated based on each biological information acquired by each acquisition processing unit of each type of biological information.

Any one of the pieces of biological information can be selectively used for calculation according to the type of exercise. For example, in the yoga area, the calculation may be performed based on the body temperature, and in the dance area, the calculation may be performed based on the three-dimensional acceleration.
In addition, when calculating an analysis physical quantity such as each calorie consumption, an exercise pattern can be identified by using a coefficient corresponding to each exercise for the size of the acquired physical quantity itself.

As described above, according to the present embodiment, a plurality of pieces of biological information can be obtained from various sensors while performing the same functions and effects as those of the first embodiment, and each analysis is performed based on them. These analysis result physical quantities can be provided to the user.
In particular, an analysis physical quantity, such as calorie consumption analysis, with a higher accuracy than ever before can be performed by performing a calculation combining a temperature (body temperature) or a beat rate (heartbeat, pulse) and three-dimensional acceleration.

  Although the configuration has been shown in the above embodiment, the same function is included in the processing procedure (analysis calculation control step) in performing the analysis calculation. That is, the analysis calculation control step performs analysis calculation based on the heart rate information, performs analysis calculation based on the electrocardiogram information, performs analysis calculation based on the body temperature information, three-dimensional motion acceleration information Analytical calculation can be performed based on the above.

[Fifth Embodiment]
Next, a fifth embodiment according to the present invention will be described with reference to FIG. In the following, description of the substantially similar configuration of the first embodiment will be omitted, and only different parts will be described. FIG. 24 is an explanatory diagram showing an example of the fifth embodiment of the communication system of the present invention.

  In the said 1st Embodiment, it is set as the structure which acquires heart rate information as an example of biometric information from all the receiving terminals in an exercise | movement area | region (floor), and transmits to an analysis server, In the said 4th Embodiment, it is an exercise | movement. It was set as the structure which acquires each kind of biological information from all the receiving terminals in an area | region (floor), and transmits to an analysis server. For this reason, in this embodiment, by using the wireless biosensor and the analysis server of the fourth embodiment, the biometric information (which can be acquired or used for calculation) is different depending on each segmented region. The case where it comprises is shown.

Specifically, the communication system 400 of the present embodiment is configured to include a wireless biosensor 410 and a plurality of receiving terminals 420 as shown in FIG.
Among the plurality of receiving terminals 420, the receiving terminal 420a in the first segmented motion area AR1 has a configuration in which heart rate information, three-dimensional motion acceleration, and the like can be acquired (transferred) as biological information, and the second segmented motion area AR2 In the receiving terminal 420b, only temperature information can be acquired (transferred), and in the receiving terminal 420c of the third segmental motion area AR3, only heartbeat information can be acquired (transferred). In the area AR4, it is possible to adopt a configuration in which all biological information can be acquired (transferred). Biological information that can be acquired by each user can be selected by the operation unit of the wireless biosensor (see the fourth embodiment). On the other hand, the biological information used for the analysis calculation can be selected and controlled on the analysis server side as needed.

  By setting it as the above structures, the kind of biological information sensor can be changed according to the kind of exercise. Moreover, when selecting biometric information according to the kind of exercise | movement, it can be set as the structure which can be selected by the sensor side. The receiving terminal may be provided with a selection function.

[Sixth Embodiment]
Next, a sixth embodiment according to the present invention will be described with reference to FIG. In the following, description of the substantially similar configuration of the first embodiment will be omitted, and only different parts will be described. FIG. 25 is a block diagram showing an example of the sixth embodiment of the communication system of the present invention.

  In each of the above-described embodiments, the receiving terminals are installed in a substantially matrix shape over the entire surface of the movement area (floor). However, in this embodiment, the receiving terminals are formed at least for each of the divided movement areas. It is configured.

  Specifically, as shown in FIG. 25, the communication system according to the present embodiment includes a wireless biosensor 510 and a plurality of receiving terminals 520 (520a, 520b, 520c, and 520d). The analysis server and the like have the same configuration as that of the first embodiment, and thus illustration and detailed description thereof are omitted.

  In this Embodiment, it is set as the structure which changes suitably the kind of biometric information acquired according to the kind of exercise | movement. That is, in the fitness club floor F (exercise area), one receiving terminal 520a is installed in the first segmented exercise area AR1, and one receiving terminal 520b is installed in the second segmented exercise area AR2. One receiving terminal 520c is installed in the three segment motion area AR1, and one receiving terminal 520d is installed in the fourth segment motion area AR4.

  That is, by installing one receiving terminal in at least one segmented motion region, the motion type of the segmented motion region can be identified. However, in the communication structure between the wireless biosensor 510 and the receiving terminal 520, it is necessary to adopt a communication structure that satisfies a specific condition. For example, in the communication structure between the wireless biosensor 510 and the receiving terminal 520, this configuration is adopted if the communication range (communication distance) of the radio wave emitted by the wireless biosensor 510 is within a single motion area. can do.

  As described above, according to the present embodiment, while exhibiting the same operational effects as the first embodiment, the number of receiving terminals is minimized, the identification of the motion type of the segmented motion area, and Analysis result information of biological information according to them can be provided.

[Seventh Embodiment]
Next, a seventh embodiment according to the present invention will be described with reference to FIG. In the following, description of the substantially similar configuration of the first embodiment will be omitted, and only different parts will be described. FIG. 26 is an explanatory diagram showing an example of the seventh embodiment of the communication system of the present invention.
In each of the above-described embodiments, in the communication structure between the wireless biosensor and the receiving terminal, from the relationship between the radio wave intensity (output) of the wireless biosensor and the communication distance, a plurality of receiving terminals are installed in the motion region. It was necessary to consider the distance between each receiving terminal.
That is, at the moment when one user is stationary at a specific location, the radio wave from the user's wireless biosensor reaches only one receiving terminal and does not interfere with other receiving terminals. I was doing.

  On the other hand, in the present embodiment, even if the radio wave from the wireless biosensor interferes with and reaches not only one receiving terminal but also other receiving terminals, it depends on the magnitude of the radio wave intensity received by each receiving terminal. , A case of using a zone determination technique for specifying the location of the user closer to the receiving terminal side is disclosed. By configuring in this way, it is possible to give various variations to the installation pattern of the receiving terminal, and it is possible to select various installation patterns according to the layout of the exercise area (for example, when the area is not a plane having a substantially square structure). It becomes possible.

  Specifically, the communication system 600 of the present embodiment includes a wireless biosensor 610 and a receiving terminal 620 as shown in FIG. The analysis server and the like have the same configuration as that of the first embodiment, and thus illustration and detailed description thereof are omitted.

  On the floor F (exercise area) of the fitness club, the plurality of receiving terminals 620 are installed in the boundary areas of the individual exercise areas (AR1 to AR4). Each receiving terminal 620 includes a radio wave intensity detecting unit (not shown), and the analysis server (not shown) includes a radio wave intensity comparing unit and a reaction receiving terminal position determining unit based on the radio wave intensity (both are all). Not shown).

  As shown in FIG. 26, in the zone SZ1 of the radio wave distance (radio wave arrival area) of the wireless biosensor 610a of the user P1, the mobile phone reaches the receiving terminal 620c, the receiving terminal 620d, and the receiving terminal 620b.

At this time, the radio field intensity detecting unit of the receiving terminal 620c detects the radio field intensity G1, the radio field intensity detecting unit of the receiving terminal 620d detects the radio field intensity G2, and the radio field intensity detecting unit of the receiving terminal 620b detects the radio field intensity G3. Assume that the radio wave intensity comparison unit of the analysis server outputs a comparison result of each radio wave intensity G1>G2> G3.
In this case, since the three receiving terminals 620d, 620b, and 620c have reacted (received and detected the transmission radio wave), the reaction receiving terminal position determination unit of the analysis server responds to each of the reaction receiving terminals corresponding to the current time. The ID is stored as a table in the storage area. Further, the reaction reception terminal position determination unit recognizes that the user P1 is present between the three points connecting the three reaction reception terminals (reception terminals that have detected transmission radio waves). That is, the reaction receiving terminal position determination unit refers to the facility map DB, the receiving terminal 620d belongs to the segmented motion areas AR2 and AR3, the receiving terminal 620c belongs to the segmented motion areas AR1 and AR2, and the receiving terminal 620b Recognizing that it belongs only to the segmented motion region AR2, it is determined that the segmented motion region AR2 extracted most as the segmented motion region is a segmented motion region to which the user belongs. In addition, the reaction reception terminal position determination unit recognizes that the user P1 is in the vicinity of the reception terminal 620c that shows G1 having the strongest radio wave intensity in the segmented motion area AR2.

  On the other hand, as shown in FIG. 26, in the zone SZ2 of the radio wave distance (radio wave arrival area) of the wireless biosensor 610b of the user P2, the mobile terminal reaches the receiving terminal 620c, the receiving terminal 620g, and the receiving terminal 620f.

At this time, the radio wave intensity detecting unit of the receiving terminal 620c detects the radio wave intensity G4, the radio wave intensity detecting unit of the receiving terminal 620g detects the radio wave intensity G5, and the radio wave intensity detecting unit of the receiving terminal 620f detects the radio wave intensity G6. Assume that the radio wave intensity comparison unit of the analysis server outputs a comparison result with each radio wave intensity of G4>G6> G5.
In this case, since the three receiving terminals 620c, 620f, and 620g have reacted (received and detected the transmission radio wave), the reaction receiving terminal position determination unit of the analysis server responds to each of the reaction receiving terminals corresponding to the current time. The ID is stored as a table in the storage area. Further, the reaction reception terminal position determination unit recognizes that the user P2 is present between the three points connecting the three reaction reception terminals (reception terminals that have detected the transmission radio waves). That is, the response receiving terminal position determination unit refers to the facility map DB, the receiving terminal 620c belongs to the segmented motion area AR1 and AR2, the receiving terminal 620g belongs to only the segmented motion area AR1, and the receiving terminal 620f Recognizing that it belongs only to the motion area AR1, it is determined that the segment motion area AR1 extracted most as the segment motion area is the segment motion area to which the user belongs. In addition, the reaction reception terminal position determination unit recognizes that the user P2 is in the vicinity of the reception terminal 620c showing G4 having the strongest radio wave intensity in the segmented motion area AR1.

  According to the configuration of the present embodiment as described above, various variations can be given to the installation pattern of the receiving terminal, and various installations can be performed according to the layout of the motion area (for example, when the area is not a plane having a substantially square structure). A pattern can be selected.

[Eighth Embodiment]
Next, an eighth embodiment according to the present invention will be described with reference to FIG. In the following, description of the substantially similar configuration of the first embodiment will be omitted, and only different parts will be described. FIG. 27 is a block diagram showing an example of the eighth embodiment of the communication system of the present invention.

  In the first embodiment, the motion region is arranged at the end of each block divided into blocks, but in this embodiment, it is configured to be installed at the substantially central part of each block.

  Specifically, as illustrated in FIG. 27, the communication system 700 includes a receiving terminal 720.

  By configuring in this way, the reception efficiency can be improved by installing in the central part of the zone as compared with the case of installing in the end of the first embodiment. In particular, this is useful when using a wireless biosensor of an RFID tag type with a particularly low radio wave intensity.

[Ninth Embodiment]
Next, a ninth embodiment according to the present invention will be described with reference to FIG. In the following, description of the substantially similar configuration of the first embodiment will be omitted, and only different parts will be described. FIG. 28 is a block diagram showing an example of the ninth embodiment of the communication system of the present invention.

  In the first embodiment, the motion area is arranged at the end of each block divided into blocks, but in this embodiment, the motion area is installed in the boundary area of each block.

  Specifically, as illustrated in FIG. 28, the communication system 800 includes a receiving terminal 820. At this time, it is preferable to set the radio wave intensity (output) of the wireless biosensor to be in the zone TZ1.

  By configuring in this way, the zone TZ1 can be set smaller than in the seventh embodiment, and it is possible to cope with a case where many types of motion areas are formed in one floor. Further, even when a large number of people use the information, the user's position can be grasped in detail as compared with the seventh embodiment.

[Tenth embodiment]
Next, a tenth embodiment according to the present invention will be described with reference to FIG. In the following, description of the substantially similar configuration of the first embodiment will be omitted, and only different parts will be described. FIG. 29 is a network sequence diagram illustrating an example of a processing procedure according to the tenth embodiment of the communication system of the present invention.

  In the present embodiment, an example is shown in which the reception processing program unit 41 of the analysis server performs processing on the server side so that the end time is acquired.

  Specifically, in the processing procedure by the communication system of the present embodiment, as shown in FIG. 29, after processing from step S201 to step S209, which is the same processing procedure as in the first embodiment, is received. The processing program unit 41 continues to transmit an end time information acquisition request to the reception processing program unit 51 (step S211). When the reception processing program unit 51 receives the end time information acquisition request (step S212), the reception processing program unit 52 refers to the biosensor user DB 42 and confirms whether or not the end time information has already been written ( Step S213).

  If the end time information has been written, the analysis-related processing after S306 shown in FIG. 7 of the first embodiment is performed.

On the other hand, when it is determined in step S213 that the end time information is not written, the reception processing program unit 51 transmits a request to input the end time information to the reception terminal 30 (step S213). S214). When the request is received by the reception terminal 30, a display for calling attention to input the end time information is performed (step S215).
In this way, the process leading to the analysis process can be performed under the initiative of the analysis server side.

[Eleventh embodiment]
Next, an eleventh embodiment according to the present invention will be described with reference to FIG. In the following, description of the substantially similar configuration of the first embodiment will be omitted, and only different parts will be described. FIG. 29 is a network sequence diagram illustrating an example of a processing procedure according to the eleventh embodiment of the communication system of the present invention.

In each of the above-described embodiments, when a user receives a wireless biosensor from the receptionist, the receptionist sets a start time by an operation input from the reception terminal, and after completing various exercises, the wireless biosensor is set as the receptionist. By returning, the end time was set by the receptionist through an operation input from the reception terminal. That is, as long as the receptionist does not perform an operation input, it is not possible to analyze at least calorie consumption, which is an example of an analysis result physical quantity. In other words, in the process from the acquisition of the biological information to the calculation of the analysis result physical quantity information, the information cannot be calculated unless the processing by the receptionist is involved.
In contrast, in the present embodiment, the processing procedure is such that calculation can be performed even if the receptionist is not involved in the process from acquisition of biological information to calculation of analysis results.

  Specifically, in the communication system of the present embodiment, first, as shown in FIG. 30, a start operation function for starting acquisition of biological information in the wireless biosensor 10 and an end operation for ending acquisition of biological information. The operation unit 17 having functions is configured. The start information is preferably transmitted together with the biological information and the first identification information (sensor ID) by the start operation function. It is preferable to transmit the end information together with the first identification information (sensor ID) by the end operation function. Thereby, first, at the initial start, the biological information is automatically acquired without using the start operation function. That is, the biological information is acquired with one exercise type of one segmented region, the end information is transmitted by the end operation function, and the first process is ended. Thereafter, when the user moves to another segmented area and exercises with another type of exercise, the biological information, the first identification information (sensor ID), and the start information are transmitted by the start operation function. When the exercise of the other exercise type ends, the end information (and the sensor ID which is an example of the first identification information) is transmitted by the end operation function, and the second process is ended. Thus, even if it moves from one division area to another division area, switching according to the exercise type can be performed without going through the receptionist.

  In the processing procedure by the communication system according to the present embodiment, as shown in FIG. 30, when an acquisition start operation for starting the acquisition of biometric information is performed by the operation unit 17, the same procedure as in the first embodiment is performed. Processing from step S201 to step S209, which is a processing procedure, is performed.

  Next, when the operation unit 17 performs an end start operation for ending the acquisition of biometric information, the wireless biosensor 10 performs a process of transmitting the end information and the sensor ID to the receiving terminal 20 (step S221). ).

  When the receiving terminal 20 receives the end information and the sensor ID (step S222), a process of attaching the terminal ID to the end information and the sensor ID and transmitting it to the reception processing program unit 41 of the analysis server is performed (step S224). .

  The reception processing program unit 41 refers to the timer 52 and acquires the current time (step S225). Further, the reception processing program unit 41 writes end time information in the biosensor user DB 42 corresponding to the received sensor ID (step S226). The reception processing program unit 41 performs a process of transmitting the sensor ID to the analysis engine unit 45 (step S227a).

  The analysis engine unit 45 receives the sensor ID transmitted by the reception processing program unit 41 (step S227b). The analysis engine unit 45 that has received the sensor ID refers to the biometric sensor user DB 42 and performs a process of acquiring a member ID, a start time, and an end time associated with the received sensor ID (step S228).

  Here, the processes of Steps S310 to S312 and Steps S321 to S335 similar to those in the first embodiment are performed.

  Next, the analysis engine unit 45 transmits and outputs an analysis result information display request to the display program unit 49 (step S231).

  Further, when the display program unit 49 receives the request (step S232), the processing from step S404 to step S408 similar to that of the first embodiment is performed thereafter.

In summary, in the information processing service method, the biological information from the first communication device attached to the user who uses each divided area obtained by dividing the specific area into a plurality of areas is installed over the specific area. An information providing service related to analysis result physical quantity information obtained by analyzing the biological information with respect to the user using a management device that receives the biological information from any of the plurality of second communication devices. An identification information acquisition step (for example, step S205), an area utilization form grasping step (for example, step S207), an analysis calculation control step (for example, step S307 to step S312 and step S321 to step S335), and an analysis result information providing step ( (Step S231, Step S232, Step S404 to Step S406) And a procedure including:
In the identification information acquisition step, the management device receives the first identification information and the biological information from the first communication device and the second identification information from the second communication device from the second communication device. The second identification information, the first identification information, and the biological information are acquired.
The area use form grasping step is a step in which the management device belongs to the user based on the type information indicating the use form of the divided area associated with the second identification information and the first identification information. Understand the type of usage of the segmented area.
In the analysis calculation control step, the management device selects and controls each analysis calculation method of the biological information in accordance with each of the divided areas, and the type information of the divided areas acquired in the area use form grasping step is determined. The analysis calculation method selected based on the analysis calculation of the user's biological information is performed, and the analysis result physical quantity information calculated by the analysis calculation is written in a specific storage area corresponding to the first identification information. Control the processing.
In the analysis result information providing step, the management device provides the analysis result physical quantity to the user of the first identification information.

  As described above, according to the present embodiment, each analysis result physical quantity information corresponding to a plurality of types of exercise (regardless of the presence or absence of exercise equipment) while exhibiting the same operational effects as the first embodiment. (For example, calories burned) can be analyzed and calculated in real time.

  In this embodiment, a timer is provided on the analysis server side, and the time information is obtained by this timer. However, a time measuring function (time measuring means) is provided on the wireless biosensor side which is an example of the first communication device. It is good also as a structure provided. The same effect is obtained by transmitting start time information by the start operation function of the operation unit and transmitting end time information by the end operation function of the operation unit.

In the present embodiment, for one exercise item,
(Total calories burned) = (unit calories burned) x (coefficient) x (total exercise time)
However, in the case of the present embodiment, an analytical calculation method may be performed in which the coefficients are multiplied and changed every minute. That is, the analytical calculation control means
If you go for n minutes for one exercise event,
p1 = (unit calorie consumption) x (large coefficient, medium coefficient, small coefficient) x (1 minute)
p2 = (unit calorie consumption) x (large coefficient, medium coefficient, or small coefficient) x (1 minute)
p3 = (unit calorie consumption) x (large coefficient, medium coefficient, small coefficient) x (1 minute)
・ ・ ・ ・
・ ・ ・ ・
pn = (calorie consumption) x (large coefficient, medium coefficient, small coefficient) x (1 minute)
And P = p1 + p2 + p3 +... Pn may be used to calculate the total calorie consumption P (not the sum of all exercise events) of one exercise event. At this time, in the heart rate determination and coefficient determination (corresponding to the first coefficient determination unit, the second coefficient determination unit, and the coefficient determination unit of the first embodiment) in each time unit, “average heart rate It may be determined and determined not from the “number” but from the acquired “heart rate” itself.
As a result, calorie consumption is meticulously and detailed even when there is a mixture of cases where people are resting and those who are enthusiastic during one exercise. Calculations can be made. It should be noted that such “analysis is performed on each unit physical quantity in each unit time while changing one of the coefficients according to the unit time when calculating the analysis result physical quantity” The calculation method is not limited to “calorie consumption”, and may be a case where other various analysis result physical quantities are calculated.

In addition, a simple calculation (rough calculation) in which the product of the number of hours is obtained as the standard calorie consumption per hour of the standard weight, for example, the use of one of the exercising exercises of the same Tai Chi The difference in calorie consumption occurs between the person and the other user who is not enthusiastically, or there is a difference depending on which one of the men and women does, and also because there are people who rest on the way In such a case, the calorie consumption cannot be accurately calculated because the calculation method is based on the specified value. In addition, when different instructors teach the same Tai Chi event, there are also differences depending on what (hard) skill and how much rest time is actually included, etc. However, the calorie consumption cannot be calculated by the calculation method based on the specified value.
On the other hand, in the present embodiment, it is possible to calculate an analysis result physical quantity such as calorie consumption in real time according to a plurality of exercise types that do not use exercise equipment. In addition, as shown in the first embodiment, since the analysis result physical quantity is calculated after multiplying different coefficients depending on the type of exercise and the magnitude of biological information, as shown in the first embodiment, the type of exercise It is possible to grasp the more accurate amount according to the user or according to the operation of the user.

[Twelfth embodiment]
Next, a twelfth embodiment according to the present invention will be described with reference to FIG. In the following, description of the substantially similar configuration of the first embodiment will be omitted, and only different parts will be described. FIG. 31 is a network sequence diagram illustrating an example of a processing procedure according to the twelfth embodiment of the communication system of the present invention.

  In the present embodiment, an example is shown in which the reception processing program unit 51 of the analysis server performs processing led by the server so as to acquire a member ID and a sensor ID.

  Specifically, in the processing procedure by the communication system according to the present embodiment, as shown in FIG. 31, first, the reception processing program unit 51 transmits a request for acquiring a member ID and a sensor ID to the reception terminal 30 ( Step S11) <Member ID / sensor ID acquisition request transmission step> Thereafter, when the request is received at the reception terminal 30, a display for calling attention to the receptionist is performed.

  This step S11 corresponds to the “first receptionist presentation step” according to the present invention. In this “first receptionist presentation step”, the management device inputs user identification information for identifying the user by presenting information to the receptionist and the first identification information for identifying the first communication device. Process that prompts.

  And the process of step S101-step S105 is performed by the process sequence similar to the said 1st Embodiment.

  As described above, according to the present embodiment, information such as a member ID and a sensor ID can be acquired under the initiative of the server side.

[Thirteenth embodiment]
Next, a thirteenth embodiment according to the present invention will be described with reference to FIG. In the following, description of the substantially similar configuration of the first embodiment will be omitted, and only different parts will be described. FIG. 32 is a network sequence diagram showing an example of a processing procedure according to the thirteenth embodiment of the communication system of the present invention.

In this embodiment, an example is shown in which the display program unit 49 of the analysis server performs processing on the server side so as to acquire a member ID.
Specifically, in the processing procedure by the communication system of the present embodiment, as shown in FIG. 32, first, the display program unit 49 transmits a member ID acquisition request to the display terminal 60 (step S13). Thereafter, when the request is received by the display terminal 60, a display for calling attention to the receptionist is performed.
And the process of step S401-step S408 is performed in the process sequence similar to the said 1st Embodiment.
As described above, according to the present embodiment, it is possible to provide analysis result information to the user at the initiative of the server side while achieving the same operational effects as the first embodiment.

[Fourteenth embodiment]
Next, a fourteenth embodiment according to the present invention will be described with reference to FIG. In the following, description of the substantially similar configuration of the first embodiment will be omitted, and only different parts will be described. FIG. 33 is a network sequence diagram showing an example of a processing procedure according to the fourteenth embodiment of the communication system of the present invention.

In the present embodiment, an example is shown in which the reception processing program unit 51 of the analysis server performs processing on the server side so as to acquire end information.
Specifically, in the processing procedure by the communication system according to the present embodiment, as shown in FIG. 33, first, the reception processing program unit 51 transmits a request for acquiring a sensor ID and end information to the reception terminal 30 ( Step S15) <End information acquisition request transmission step>. Thereafter, when the request is received at the reception terminal 30, a display for calling attention to the receptionist is performed.

  The step S15 can constitute the “second receptionist presentation step” according to the present invention. In the “second receptionist presentation step”, the management device performs a process of prompting input of the first identification information for identifying the first communication device and the end information by presenting information to the receptionist.

  And the process of step S301-step S312 is performed by the process sequence similar to the said 1st Embodiment.

  As described above, according to the present embodiment, end time information can be obtained on the initiative of the server side while exhibiting the same operational effects as those of the first embodiment.

[Various modifications]
Although the communication system and the information processing service method according to the present invention have been described according to some specific embodiments, the implementation described in the text of the present invention without departing from the spirit and scope of the present invention. Various modifications can be made to the embodiment.
For example, as a communication structure between a receiving terminal and a wireless biosensor, various types such as communication using a non-contact IC, wireless LAN, and Bluetooth (registered trademark) can be cited.

When the receiving terminal and the wireless biosensor are non-contact type ICs, examples of the wireless biosensor include an RFID (Radio Frequency ID Enhancement) tag having a biometric information acquisition function. At this time, as a receiving terminal, for example, an RFID tag reader provided with a receiving antenna can be cited.
The RFID tag standard is a first type in which the frequency band of LF (Low Frequency) is 125 to 134 KHz and the communication distance is about 1 to 100 cm, the frequency band of HF (High Frequency) is 13.56 MHz and the communication distance is about 1 m. The second type of UHF (Ultra HF) uses a frequency of 860 to 960 MHz and a communication distance of about 7 m, a microwave use frequency of 2.45 GHz and a communication distance of about 2 m and a fourth type. Things are assumed.
Furthermore, any type of active tag that has a built-in battery, emits radio waves by itself and returns tag information to the reader, and a passive tag that does not have a battery and returns tag information to the reader using radio waves from the reader as energy It may be. In the case of an active tag, the used frequency band is 300 MHz and the communication distance is about 10 to 20 m.
For this reason, the number of antennas and RFID tag readers can be appropriately changed according to the communication distance.

  The communication structure between the receiving terminal and the wireless biosensor may be configured by a wireless LAN or the like. An access point may be installed as a receiving terminal, and access control of a receivable wireless biosensor may be set by ESS-ID. A wireless biosensor that can be received may be defined by adjusting the size of the cell by adjusting the output of the radio wave of the access point.

  The communication structure between the receiving terminal and the wireless biosensor may be configured with Bluetooth (registered trademark) or the like. Bluetooth uses a frequency of 2.4 GHz and a communication distance of about 10 m. According to the standard, up to 7 slaves can communicate with one master, and communication between slaves is not possible. Communication. For this reason, when forming a network, it is preferable to form a scatter net composed of a plurality of piconets in units of “piconet” that forms a plurality of slaves for one master. At this time, various construction methods such as assigning the slave of the other piconet to the master of one piconet can be assumed.

  In addition, as a communication structure between the receiving terminal and the wireless biosensor, ZigBee (first type of use frequency 2.4 GHz, second type of use frequency 915 MHz, third type of use frequency 868 MHz, communication distance of about 9 m to about 69m), UWB (frequency of use: about 3.1 GHz to about 10.69 GHz, communication distance of about 20 or less), and the like. In the present embodiment, these various communication structures may be employed.

  Furthermore, in each of the embodiments described above, radio communication using radio waves has been described as an example for the communication structure between the receiving terminal and the wireless biosensor. However, optical (wireless) communication may be used. Examples of the optical communication protocol include IrDA (Infrared Data Association).

  In this case, the wireless biosensor may be configured as a “first communication device” having a biometric information acquisition function, and the receiving terminal may be configured as a “second communication device”. When configured as a “first communication device”, the first communication device may be configured as a computer, and includes a first wireless communication unit such as Bluetooth and a second wireless communication unit such as a mobile phone network. It may be an information device. Further, it may be an information device such as a PDA provided with a first wireless communication unit such as a wireless LAN.

  In the above-described embodiment, the biological wireless sensor includes only the information transmission unit. However, the biological wireless sensor may include a communication unit including an information transmission unit and an information reception unit. Furthermore, you may provide the biometric acquisition switching means which can turn on / off acquisition of biometric information.

  Moreover, in the said embodiment, the receiving terminals arrange | positioned at matrix form are good also as the 1st structure arrange | positioned all on the ceiling part in a floor, and it is good also as a 2nd structure arrange | positioned all on the floor part of a floor. The third configuration may be such that some of the plurality of receiving terminals are arranged on the ceiling and the other receiving terminals are arranged on the floor, and some of the first group receiving terminals of the plurality of receiving terminals are It is good also as a 4th structure which arrange | positions some other 2nd group receiving terminals to a floor part, and arranges another some 3rd group receiving terminals to a wall part and / or a pillar part on a ceiling part.

  Furthermore, with regard to the planar layout configuration of the receiving terminal, a receiving zone is formed on the basis of a substantially rectangular imaginary line, a receiving terminal is installed at each vertex of the square, and the receiving terminal is formed in a matrix or lattice shape. However, it is not limited to this. A layout in which a receiving zone is formed based on an imaginary line having a substantially hexagonal plane and a receiving terminal is installed at each vertex of the hexagon may be used. Furthermore, a layout in which a reception zone is formed on the basis of a substantially triangular imaginary line and a reception terminal is installed at each vertex of the triangle may be used. In addition, in the case of having one rectangular column and the other rectangular column adjacent to each other, based on an imaginary line in which the boundary of one rectangular column is shifted from the boundary of the other rectangular column, each square The layout which installs a receiving terminal in the vertex part may be sufficient.

  In addition, as a method of arranging the receiving terminals in the floor, the receiving terminal may be configured to be denser toward the center of each segmented region and sparse toward the boundary of each segmented region. It is suitable for an exercise event that tends to attract users to the central area of each segmented area.

  Further, in the seventh embodiment, since the range of the radio wave arrival zone SZ of the wireless biosensor is an area that covers about three receiving terminals, the case where the zone determination is performed by three receiving terminals is taken as an example. As mentioned above, the number of receiving terminals may be four or five, and the determination can be made based on the difference in radio field intensity.

  Furthermore, the receiving terminal preferably includes, for example, a first mounting portion that is attached to a ceiling surface and the like, and a second mounting portion that is formed detachably with respect to the first mounting portion and extends from the receiving terminal body. . A plurality of receiving terminals can be easily attached.

  “Analysis result physical quantity” includes each calorie consumed and analyzed (by different analysis calculation methods) for each segmented area (each type of exercise), total calories consumed, the total calorie consumption, exercise intensity, In addition, the thing similar to this is mentioned. The exercise intensity is preferably analyzed (determined) based on the maximum heart rate.

Furthermore, as an example of “analysis result physical quantity”, the method of obtaining calorie consumption from the pulse by using “coefficient” has been described as an example. However, the present invention is not limited to this. The correlation with (calorie consumption) may be tabulated and calculated by using the table.
In addition, in the above-described embodiment, the case of using the (large / medium / small) three-stage method as the “coefficient” has been described. Multiple stages may be set.

“Analysis result physical quantity” that can be calculated from the heart rate includes exercise intensity in addition to energy consumption. At this time, when the exercise intensity is expressed as% VOmax, there is no individual difference, so the exercise intensity is calculated by [(exercise heart rate−rest heart rate) / (maximum heart rate−rest heart rate)] × 100. it can. Here, since “maximum heart rate” = (220−age), age information is required. These may be formed so as to be stored in advance in, for example, the member DB.
Since the relationship between the maximum heart rate and the age differs between the trained person and the non-trained person, they may be tabulated as a first highest heart rate correlation and a second highest heart rate correlation, respectively.
Furthermore, the relationship between exercise intensity and heart rate information may be tabulated for each age, and the exercise intensity may be calculated from the heart rate based on the table.

  In addition, in the correlation between the heart rate and the exercise intensity in advance, when the exercise intensity is indicated by (kpm / min), the first correlation function of “ordinary person”, the second correlation function of “person with insufficient exercise”, A third correlation function of “sportsman” may be tabulated, and an athletic ability type determination unit may be provided for determining which type is close to the analysis calculation result.

  Resting heart rate may decrease with age. People who have a habit of aerobic exercise, especially those who are training long distance running, have a low resting pulse rate. Also, heart rate increases due to mental tension. When exercising, the heart rate increases because the body needs more oxygen and sends the blood it supplies to systemic tissues. Heart rate increases as exercise intensity increases, but does not increase with abnormal maximum heart rate. Maximum heart rate decreases with age and varies from person to person. Regardless of athletic ability, the maximum heart rate is almost the same at the same age. Since a linear relationship is established between the heart rate and the oxygen intake, the exercise intensity can be known by measuring the number of beats.

Furthermore, “analysis result physical quantity” that can be calculated from the heart rate includes an RPE value and the like. The RPE value can be calculated from the RPE value (= heart rate / 10).
Also, “calorie consumption” (kcal / min) and other various units, watts (1 [kcal / min] = 70 [watts]), kgm / min (1 [kcal / min] = 427 [kgm / min] ), Etc. are also possible.
Further, a correlation (for example, a regression line) indicating a correlation between the heart rate and the oxygen intake may be tabulated so that the oxygen intake (VO2max) can be calculated from the maximum heart rate.

  Further, the “analysis result physical quantity” includes an RMR value (energy metabolism rate) and the like. That is, the RMR value (= calorie consumption / time) can be calculated based on the calorie consumption calculated according to the first embodiment and the time information. At this time, the RMR values of each luck generally shown are tabulated, and based on the measurement, the type of momentum corresponding to the calculated RMR value is output as a list. Also good. Further, based on the RMR value, a METS value (= 0.83 × RMR + 1) can be calculated, RPE <subjective exercise intensity> = (heart rate / 10), etc. can be calculated, and Af <activity intensity coefficient> (= RMR + 1.2) can also be calculated. As described above, the “analysis result physical quantity” includes a METS value, an Af value, and the like.

  Furthermore, a table defining the correlation between blood pressure and heart rate is constructed in the blood pressure-heart rate DB created for each type of exercise so that the blood pressure can be calculated as “analysis result physical quantity” from the heart rate. Good. In this case, a blood pressure detection unit is not necessary.

Also, a first (1, 1, 1) correlation table showing the correlation between the systolic blood pressure and heart rate before training for a specific exercise, and the systolic blood pressure and heart rate after training for a specific exercise (1, 1, 2) correlation table showing the correlation with the first, (1, 2, 1) correlation table showing the correlation between the systolic blood pressure and the heart rate in the state before training for other exercises, (1st, 2nd, 2nd) correlation table showing correlation between systolic blood pressure and heart rate in the state after training for other exercises, and systolic blood pressure in the state before training for k exercises The first (1, k, 1) correlation table showing the correlation with the heart rate, and the first (1, k, 2) correlation table showing the correlation between the systolic blood pressure in the post-training state and the heart rate for k exercise. And more specific The (2,1,1) correlation table showing the correlation between the diastolic blood pressure and the heart rate before training for exercise, the correlation between the diastolic blood pressure and the heart rate after training for a specific exercise (2nd, 1st, 2nd) correlation table showing the correlation between diastolic blood pressure and heart rate in the state before training for other exercises, (2nd, 2nd, 1st) correlation table showing other exercises The (2, 2, 2) correlation table showing the correlation between the diastolic blood pressure and the heart rate in the state after the training, ..., the diastolic blood pressure and the heart rate in the state before training for the exercise of k A second (2, k, 1) correlation table showing the correlation, and a second (2, k, 2) correlation table showing the correlation between the diastolic blood pressure in the post-training state and the heart rate for k exercises Also good.
In this way, the relationship between blood pressure and heart rate according to the type of exercise is tabulated, the measured blood pressure and measured heart rate are compared with the information on the table, and how much you are trained yourself. There may be provided means for confirming whether or not.
In addition, DP <double product: index of heart burden> (= heart rate × blood pressure) may be calculated from the relationship between heart rate and blood pressure.
Furthermore, the correspondence between the pulse wave velocity and the age is tabulated as a correlation indicating the case of an ordinary person, and a determination unit is provided to indicate whether or not the own measurement value is “artery younger” than the ordinary person. Also good.

  The “analysis result physical quantity” includes visceral fat basal metabolism, visceral fat quantity, food intake, sleep quantity, and the like.

  Furthermore, from the electrocardiogram, the R wave, PQ time, QT time, P height, Q height, S height, T height, P width, QRS width, ST width, etc. A value may be calculated for each of the T wave and the QRS wave, and various analysis result physical quantities may be calculated and output. In addition, determination of heart rate, presence / absence of arrhythmia, determination of presence / absence of abnormal stimulation conduction, determination of presence / absence of myocardial ischemia, and the like may be performed.

  When the other biological information acquisition unit 321f of the fourth embodiment has electromyogram information, the analysis calculation control unit calculates and outputs the maximum muscle strength, muscle strength, etc. from each electromyogram of each muscle portion. You may make it do. Furthermore, a muscle part determining means for determining which muscle is operating may be provided. Further, the calorie consumption may be estimated by muscle strength. In such a calculation, the “coefficient” may be used.

  “Biological information” includes skin temperature (skin temperature sensor), conductivity (skin conductivity sensor), momentum (momentum sensor), blood oxygen (photodiode + infrared sensor: two infrared rays with different wavelengths) And measuring the saturation ratio in blood by measuring the light transmittance ratio), eye movement (electrode-type eye movement sensor: the horizontal movement of the eye is captured as an electrical signal by differential amplification of skin potential) , Electroencephalogram (electroencephalogram sensor), pulse wave (measure blood flow with photodiode + infrared sensor, calculate pulse / oxygen intake from blood flow waveform), body motion acceleration (body motion acceleration sensor), muscle strength of various muscle parts (Electromyograms of various muscle parts), sweating (GSR sensor: electrodermal reflex), electrocardiogram (electroencephalogram induction) and the like.

  In addition, the “analysis calculation” includes autocorrelation, cross-correlation, transfer function, coherence, cross spectrum, etc. in heart rate variability analysis, average value / dispersion / maximum / minimum of heartbeat waveform at fixed time, standard Deviations / differences / differentiations / integrations may be included, as well as simple moving averages, weighted moving averages, or spectral content.

  Furthermore, in the above-described embodiment, the average heart rate is calculated. However, the “average” includes an average (arithmetic average), a geometric average, a harmonic average, a weighted average (weighted average), a median value, The mode value may be included.

  Further, the calorie consumption calculated from the “heartbeat” may be corrected by a parameter such as temperature. Further, the correlation between the blood pressure and the heart rate may be tabulated, and the heart rate calculated from the actual blood pressure may be compared with the measured heart rate. In addition, when the “heartbeat” is acquired in real time, an infrared component, an ultraviolet component, or the like of the waveform may be acquired.

  Moreover, although an exercise bike <bicycle ergometer> (first exercise equipment) has been cited as an example of various exercise equipment installed in the facility, in addition to this, speed setting and inclination setting are possible, and walking and running are performed. Treadmill <running machine> (second exercise equipment), cross trainer (third exercise equipment) to move the legs back and forth, leg extension (fourth exercise equipment) to do front thigh exercise, rear thigh Leg curl to exercise (fifth exercise equipment), chest press to exercise chest and arms (sixth exercise equipment), rat pull-down to exercise the entire back (seventh exercise equipment), abdominal exercise Register the location of various exercise equipment such as abdominal (eighth exercise equipment), step machines, bench presses, etc. to be registered in the facility map. Flip momentum of each may be such that operation.

  The control means or the control unit may combine the function of outputting the analytical calculation physical quantity in real time in the eleventh embodiment and the function of selecting and controlling the type of biological information in the fourth embodiment. . When the biometric information acquired from the user is moved from one segmented area to another segmented area, the type of biometric information to be acquired, the type of analysis result physical quantity, analysis calculation method, etc. may be appropriately changed and controlled. .

  Furthermore, examples of the fitness-related exercise area include a stretch area for stretching, an aerobic training area, a strength training area, and a relaxation area. In addition, martial arts, various dances, various light exercises, and boxing may be included.

  Moreover, although the display terminal was comprised as what outputs a calculation result, it is not restricted to this. The calculation result output means for outputting the calculation result may be an output device or a display device for displaying the calculation result of the analysis server (analysis engine unit) via an output interface (not shown). Examples of the output device include a hard disk and a printer. Examples of the display device (display means) include a display as described above. The output interface is a program or hardware for exchanging data and communicating for outputting the calculation result in the analysis engine unit to calculation result output means (hard disk, printer, display, etc.).

  In addition, the “system” in the above-described embodiment refers to a logical collection of a plurality of devices, and it does not matter whether the devices of each configuration are in the same housing. For this reason, this invention may be applied to the system comprised from several apparatuses, and may be applied to the apparatus which consists of one apparatus.

  For this reason, in the above-described embodiment, the case where the analysis server is configured as an example of the “management device” has been described. In this case, the analysis server, the display terminal, the reception terminal, and the like are physically separated. However, the analysis server and the display terminal may be configured as one “information processing apparatus or management apparatus (computer)”. The analysis server and the reception terminal may be configured as one “information processing apparatus or management apparatus (computer)”, or the analysis server, the display terminal, and the reception terminal may be configured as one “information processing apparatus or management apparatus (computer)”. ) ".

  Further, the function of the management device may be incorporated into any one of the plurality of reception terminals to constitute an “information processing device or management device (computer)”. Further, a plurality of receiving terminals are all configured as a plurality of antenna units, and an “information processing apparatus or management apparatus (computer)” is configured as a configuration in which all functions of the receiving terminals in the above embodiments are incorporated in the analysis server. Also good. At that time, the functions of the plurality of receiving terminals, the analysis server, the display terminal, and the receiving terminal may be configured as one “information processing apparatus or management apparatus (computer)”. That is, the communication system includes a wireless biosensor (first communication device) and a management device capable of communicating with the first communication device via a plurality of antenna units.

  Further, when the wireless biosensor is an information terminal such as a mobile phone having a wireless communication function such as Bluetooth or a PDA having a wireless LAN function, the information terminal may be configured as an information processing apparatus having a function of an analysis server. Good. In this case, the receiving terminal and the information processing apparatus are configured by two-way communication wirelessly.

  In the information processing service method for providing physical quantity information of the analysis result in the information processing apparatus in that case, the computer performs analysis based on biometric information for a user who uses each divided area obtained by dividing the specific area into a plurality of areas. An information processing service method for providing an information providing service regarding result physical quantity information, in which a computer acquires biological information of the user, and a plurality of communications in which the computer is installed over the specific area A communication device identification information acquisition step of outputting a request to any of the devices and acquiring communication device identification information for identifying the communication device; and a computer, based on the communication device identification information, An area use form grasping step for grasping type information indicating the type of use form of the user corresponding to the area; According to the type information of the segmented area based on the user's biometric information acquired in the biometric information acquisition step and the type information acquired in the area use form grasping step. The analysis calculation control step for calculating the analysis result physical quantity information and the result output step for outputting the analysis result physical quantity information are included.

  Needless to say, the information processing apparatus (computer) that provides the information processing service method is not limited to a server or a mobile phone, and may be various information processing apparatuses.

  Furthermore, the “management device” that constitutes the analysis server includes not only a normal server function and a SQL server such as a database, but also a web server, a POP and SMTP server for sending and receiving e-mails, and other DNS servers. It may be configured including a server and function as a generic term for a system including these. Moreover, each part of the management apparatus which comprises an analysis server is comprised by a some server group, and is good also as a communication system. These may be dedicated information devices.

  Further, each DB in the analysis server may be a server that is physically separated from the management device and includes a dedicated database. Specifically, in addition to the analysis server, a facility map server, a biological information server, a biological sensor user server, a member server, an analysis server, and an analysis result server can be configured. When each DB is configured as a dedicated server, the hardware configuration of each server is not shown, but a display means (screen) for displaying various information and the like on the display screen of the display means (various types) Operation input means (such as a keyboard / mouse) for operating and inputting data in the input field etc., transmission / reception means (communication means) for transmitting / receiving various signals / data, memory for storing various programs / various data Means (for example, memory, hard disk, etc.), control means (for example, CPU, etc.) for controlling these may be provided.

  Furthermore, in “communication” in the network N1, LN1 to LNn, WN, the network of the analysis server and the receiving terminal, the network of the analysis server and the display terminal, etc., wireless communication and wired communication as well as wireless communication and wired communication are used. In other words, wireless communication may be performed in a certain section, and wired communication may be performed in another section. Further, communication from one device to another device may be performed by wired communication, and communication from another device to one device may be performed by wireless communication.

  As the network, for example, a cellular phone network (including base stations and switching systems), a public phone network, an IP phone network, an ISDN circuit network, and the like (such as TCP / IP protocol) The communication configuration used), intranet, LAN (including Ethernet: registered trademark, gigabit Ethernet, etc.), WAN, optical fiber communication network, power line communication network, and various dedicated line networks compatible with broadband may be used. In addition to the TCP / IP protocol, the network may be any communication protocol such as a network using various communication protocols, a virtual network constructed in software, or a network including all similar networks. The network is not limited to a wired network, but includes a wireless (including satellite communication, various high-frequency communication means, etc.) network (for example, a single carrier communication system such as a simple telephone system or a cellular phone, W-CDMA, or IEEE 802.11b) Network including a spread spectrum communication system such as a wireless LAN, a multi-carrier communication system such as IEEE802.11a and HiperLAN / 2, etc., or a combination of these may be used. It may be a system connected to a network. Further, the network may take any form such as point-to-point, point-to-multipoint, multipoint-to-multipoint.

  In addition, in the communication structure between the management device and the display terminal, or the communication structure between the management device and the reception terminal, the types of interfaces formed on one or both of them are, for example, a parallel interface, a USB interface, and IEEE1394. , A network such as a LAN or WAN, or the like, or any interface developed in the future.

(program)
In addition, the software program of the present invention that implements the functions of the above-described embodiments (including a management program (including a reception processing program, a reception processing program, an analysis engine unit, a display program, etc.), a reception terminal, a display terminal, etc. The terminal program and the communication program such as the second communication device <receiving terminal> are the same as those in the above-described embodiments shown in FIGS. 1, 2, 3, 4, 5, 6, 7, 8, Programs corresponding to the processing units (processing means) and functions shown in various block diagrams shown in FIGS. 21, 22, and 23, etc., flowcharts shown in FIG. 18, etc., FIGS. 15, 16, and 17 19, 29, 30, 31, 32, etc., the network sequence diagrams shown in FIG. 19, the program corresponding to the processing procedure, processing means, function, etc. 11, 12, 13, 14, etc., each processing program processed in each of the programs (the communication system of each of the above-described embodiments, the management apparatus, the information terminal, etc. used therein) The method (steps) generally described in the specification, the described processing, data (for example, various IDs, various tables, etc.), and all or various parts of various DB (database) data.

The program may be in any form such as an object code, a program executed by an interpreter, or script data supplied to the OS. The program can be implemented in a high level procedural or object oriented programming language, or in assembly or machine language as required. In either case, the language may be a compiler or interpreted language. Also included is a program in which the above-described program is incorporated into application software that can be operated on a general personal computer or a portable information terminal.

  As a method of supplying the program, it is also possible to provide the program from an external device that is communicably connected to the computer via an electric communication line (whether wired or wireless). For example, the program can be supplied by connecting to a homepage on the Internet using a browser on a computer and downloading the program itself or a compressed file including an automatic installation function from the homepage to a recording medium such as a hard disk. It can also be realized by dividing the program code constituting the program into a plurality of files and downloading each file from a different home page. That is, a server that allows a plurality of users to download a program file for realizing the functional processing of the present invention on a computer is also included in the scope of the present invention.

(Information recording medium)
Moreover, the structure which recorded the program (The program for management, the program for terminals, and a communication program) on the information recording medium may be sufficient. An application program including a program is stored in the information recording medium, and a computer can read the application program from the information recording medium and install the application program on the hard disk. Thus, the program can be provided by being recorded on an information recording medium such as a magnetic recording medium, an optical recording medium, or a ROM. Use of an information recording medium in which such a program is recorded in a computer constitutes a convenient information processing apparatus.

  As an information recording medium for supplying the program, for example, ROM, RAM, semiconductor memory such as flash memory and SRAM, and an integrated circuit, or a USB memory, memory card, optical disk, magneto-optical disk, magnetic recording medium and the like including them. Furthermore, flexible disk, CD-ROM, CD-R, CD-RW, FD, DVDRAM, DVDROM, DVD-R, DVD-RW, DVD + R, DVD + RW, MO, ZIP, magnetic card, magnetic tape, SD The information may be recorded on a portable medium such as a card, a memory stick, a nonvolatile memory card, or an IC card, or a storage device such as a hard disk built in a computer system.

  Furthermore, the “information recording medium” is a medium that dynamically holds a program for a short time (transmission medium), such as a communication line when transmitting a program via a network such as the Internet or a communication line such as a telephone line. Or a transmission wave), a volatile memory inside a computer system serving as a server or a client in that case, and those holding a program for a certain period of time.

  In addition, when an OS running on a computer, an RTOS on a terminal (for example, a mobile phone) performs part or all of the processing, the same functions as those in the above embodiment can be realized and An effect can be obtained.

  Furthermore, the program is encrypted, stored in a recording medium such as a CD-ROM, distributed to the user, and the user who clears the predetermined condition is allowed to download key information for decryption from the homepage via the Internet, and It is also possible to execute the encrypted program by using the key information and install the program on a computer. In this case, the configuration of the present invention may include each component (various means, steps and data) of the program and encryption means for encrypting the program (various means, steps and data).

In the above embodiment, the client server system has been described as an example of the communication structure between the management device and the reception terminal and the communication structure between the management device and the display terminal. However, the terminals form a network without using a server. Peer-to-peer (Peer)
(To Peer) communication system may be used. At this time, the management apparatus may be a master terminal in the peer-to-peer system. In addition, the “communication system” of the above-described embodiment may be configured as a system in which the “communication system” is integrated with another “information processing system”, and the whole may be configured as the “communication system” of the present invention. The “communication system” includes an OS and hardware such as peripheral devices.

  Furthermore, as an information processing apparatus in which the above-described management program, terminal program, and the like are installed, the management apparatus is not limited to a personal computer, for example, but includes various servers, EWS (engineering workstation), medium-sized computers, mainframes, and the like. Can be mentioned. Terminals (information terminals such as reception terminals and display terminals) include, in addition to the above examples, portable information terminals, various mobile terminals, PDAs, mobile phones, wearable information terminals, and various (portable) televisions and DVDs. A configuration that can be used from a recorder, various acoustic devices and their remote controllers, home appliances equipped with various information communication functions, game devices having network functions, and the like may also be used. Or what was improved as an application displayed on these terminals can also be included in the scope of the present invention.

  Further, the program may be for realizing a part of the above-described functions, and further, a program that can realize the above-described functions in combination with a program already recorded in a computer system, a so-called difference file ( Difference program).

  In the present specification, the steps shown in the flowchart include not only the processing performed in time series according to the described procedure but also the processing executed in parallel or individually even if not necessarily performed in time series. It is a waste. In the implementation, the order in which the program procedures (steps) are executed can be changed. Furthermore, certain procedures (steps) described herein can be implemented, removed, added, or rearranged as a combined procedure (step) as needed for implementation.

  Furthermore, each function such as a management device, a display terminal, a reception terminal, a reception terminal, a wireless biosensor, each function, a function of a procedure of each step, a program function such as a dedicated hardware (for example, a dedicated semiconductor circuit) The function may be achieved by the above, or a part of all functions of the program may be processed by hardware, and another function of all the functions may be processed by software. In the case of dedicated hardware, each unit may be formed by an integrated circuit such as an LSI. These may be individually made into one chip, or may be made into one chip so as to include a part or all of them. Further, the LSI may include other functional blocks such as a streaming engine. Further, the method of circuit integration is not limited to LSI, and implementation with a dedicated circuit or a general-purpose processor is also possible. Furthermore, if integrated circuit technology comes out to replace LSI's as a result of the advancement of semiconductor technology or a derivative other technology, it is naturally also possible to carry out function block integration using this technology.

  Further, the above embodiments include various stages, and various inventions can be extracted by appropriately combining a plurality of disclosed constituent elements. That is, it goes without saying that examples include combinations of the above-described embodiments or any one of them and any of the respective modifications. In this case, even if not specifically described in the present embodiment, the obvious effects from the respective configurations disclosed in the embodiments and their modifications are naturally included as the effects of the present embodiment. it can. Moreover, it is needless to say that the embodiment includes a configuration in which some configuration requirements are deleted from all the configuration requirements shown in the embodiment.

  The description so far discloses only one example of the embodiment of the present invention in order to facilitate understanding of the present invention, and each of the embodiments and their modified examples all describe the present invention. It is merely an example of implementation in implementation, is illustrative, not limiting, and can be modified and / or modified as appropriate within a predetermined range. The present invention can be implemented in various forms without departing from the technical idea or the main features thereof, and the technical scope of the present invention is construed in a limited manner by each of the embodiments and modifications thereof. It must not be. Accordingly, each element disclosed in the above embodiment includes all design changes and equivalents belonging to the technical scope of the present invention.

  The present invention can be applied to the manufacturing industry such as measurement and measurement industry and communication industry, the computer industry, the data processing industry, and other information processing service industries, and the computer may not necessarily comply with a specific standard. It can also be applied to software applications. More specifically, the present invention can be applied to a system construction business for constructing a system installed in an exercise facility or the like, or a service business for operating a server system and providing functions to users.

It is explanatory drawing which shows the outline | summary for demonstrating the principle of the communication system by the 1st Embodiment of this invention. It is a block diagram which shows an example of the whole structure of the communication system by the 1st Embodiment of this invention. It is a block diagram which shows an example of a structure of the radio | wireless biosensor of the communication system of FIG. It is a block diagram which shows an example of a structure of the receiving terminal of the communication system of FIG. It is a block diagram which shows an example of a structure of the reception terminal of the communication system of FIG. It is a block diagram which shows an example of a structure of the analysis server of the communication system of FIG. It is a block diagram which shows an example of a structure of the calorie consumption calculation process part of the analysis server of the communication system of FIG. It is a block diagram which shows an example of a structure of the display terminal of the communication system of FIG. It is explanatory drawing which shows an example of the data structure of member DB of the communication system of FIG. It is explanatory drawing which shows an example of the data structure of biosensor user DB of the communication system of FIG. It is explanatory drawing which shows an example of the data structure of facility map DB of the communication system of FIG. It is explanatory drawing which shows an example of the data structure of biometric information DB of the communication system of FIG. It is explanatory drawing which shows an example of the data structure of DB for analysis of the communication system of FIG. It is explanatory drawing which shows an example of the data structure of analysis result DB of the communication system of FIG. It is a network sequence diagram which shows an example of the process sequence of the communication system by the 1st Embodiment of this invention. It is a network sequence diagram which shows an example of the process sequence of the communication system by the 1st Embodiment of this invention. It is a network sequence diagram which shows an example of the process sequence of the communication system by the 1st Embodiment of this invention. It is a flowchart which shows an example of a more detailed process sequence of a calorie consumption calculation process among the process sequences of the communication system by the 1st Embodiment of this invention. It is a network sequence diagram which shows an example of the process sequence of the communication system by the 1st Embodiment of this invention. It is explanatory drawing which shows an example of the whole structure of the communication system by the 2nd Embodiment of this invention. It is a block diagram which shows an example of the whole structure of the communication system by the 3rd Embodiment of this invention. It is a block diagram which shows an example of a structure of the radio | wireless biosensor of the communication system by the 4th Embodiment of this invention. It is a block diagram which shows an example of a structure of the analysis server of the communication system by the 4th Embodiment of this invention. It is explanatory drawing which shows an example of the outline | summary of the communication system by the 5th Embodiment of this invention. It is explanatory drawing which shows an example of the outline | summary of the communication system by the 6th Embodiment of this invention. It is explanatory drawing which shows an example of the outline | summary of the communication system by the 7th Embodiment of this invention. It is explanatory drawing which shows an example of the outline | summary of the communication system by the 8th Embodiment of this invention. It is explanatory drawing which shows an example of the outline | summary of the communication system by the 9th Embodiment of this invention. It is a network sequence diagram which shows an example of the process sequence of the communication system by the 10th Embodiment of this invention. It is a network sequence diagram which shows an example of the process sequence of the communication system by the 11th Embodiment of this invention. It is a network sequence diagram which shows an example of the process sequence of the communication system by the 12th Embodiment of this invention. It is a network sequence diagram which shows an example of the process sequence of the communication system by the 13th Embodiment of this invention. It is a network sequence diagram which shows an example of the process sequence of 14th Embodiment of the communication system of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Communication system 10 Wireless biosensor (1st communication apparatus)
DESCRIPTION OF SYMBOLS 11 Biometric information acquisition part 12 Information transmission part 13 Sensor ID memory | storage part 14 Control part (1st communication apparatus control means)
20 Receiving terminal (second communication device)
21 information receiving unit 22 information transmitting unit 23 receiving terminal ID storage unit 24 control unit (second communication device control means)
30 reception terminal 36 control unit (reception terminal control means)
40 Analysis server (management device)
41 reception processing program part 41c exercise type information acquisition processing part (area utilization form grasping means)
42 Biosensor user information storage unit (Biosensor user DB)
43 biological information storage unit (biological information DB)
44 facility map information storage (facility map DB)
45 Analysis engine (analysis calculation control means)
46 Memory unit for analysis (analysis DB)
47 Analysis result information storage unit (analysis result DB)
48 Member Information Storage (Member DB)
49 Display processing program unit 51 Reception processing program unit 60 Display terminal 66 Control unit (display terminal control means)

Claims (45)

A first communication device attached to a user who uses each of the divided areas obtained by dividing the specific area into a plurality of areas;
A plurality of second communication devices installed over the specific area and capable of detecting at least a radio transmission wave from the first communication device and acquiring information;
A management device capable of communicating with the plurality of second communication devices via a network;
Including
The first communication device is
First communication device control means for performing control processing for transmitting first identification information for identifying itself to the second communication device;
Including
The second communication device is
Second communication device control means for performing a control process of attaching the second identification information for identifying itself to the first identification information from the first communication device and transmitting the second identification information to the management device;
Including
The management device
The second identification information from the second communication device is referred to by referring to area use form diagram information indicating a correspondence relationship between the second identification information registered in advance and type information indicating the type of use form of the segmented area. And an area use form grasping means for grasping the type of use form of the divided area to which the user belongs, based on the first identification information and
A communication system comprising: The communication system according to claim 1,
The first communication device is
Biometric information acquisition means for acquiring biometric information of the user,
Further comprising
The first communication device control means includes:
The first identification information is attached to the acquired biological information and transmitted to the second communication device,
The second communication device control means includes:
The second identification information is further attached to the biological information with the first identification information from the first communication device, and transmitted to the management device,
The management device
In the analysis calculation method selected and controlled based on the type information of the divided area grasped by the area use form grasping means, selecting and controlling each analysis calculation technique of the biological information according to each divided area Analytical calculation control means for performing control processing for performing analysis calculation of the biological information of the user and writing the analysis result physical quantity information corresponding to the analysis calculation to the first storage information in association with the first identification information;
A communication system, further comprising: The communication system according to claim 2,
The analysis calculation control means includes
Each stage range in which the average value of each biological information acquired at each specific time is defined in a plurality of stages, and different coefficients corresponding to each stage range are associated in advance, and the average value is Coefficient acquisition means for determining which stage range is in each stage range and acquiring a corresponding coefficient;
Based on the unit physical quantity information per unit time according to the type of usage in the segmented area, the first total exercise time information exercised in the segmented area, and the coefficient, First physical quantity calculating means for calculating the first physical quantity information of
A communication system comprising: The communication system according to claim 3,
The analysis calculation control means includes
Second physical quantity calculating means for calculating second physical quantity information that is the sum of the first physical quantity information in each partitioned area;
A communication system, further comprising: The communication system according to claim 3,
The first physical quantity information is
Calorie consumption information by exercise of the user of the type of exercise corresponding to at least one of the segmented regions,
Including
The first physical quantity calculating means includes
Based on the unit calorie consumption information per unit time according to the type of exercise in the segmented area, segmented area exercise time information exercised in the segmented area, and consumption in the segmented area Calculating calorie information,
A communication system characterized by the above. The communication system according to claim 1,
The specific area is formed according to each level of the exercise facility,
The area use form grasping means is:
Grasping the type of exercise with reference to the exercise area diagram information indicating the correspondence between the second identification information and the exercise type information unique to the segmented area for each hierarchy of the specific area;
A communication system characterized by the above. The communication system according to claim 1,
The specific area is formed for each of a plurality of exercise facilities,
The area use form grasping means is:
Grasping the type of exercise with reference to the exercise area diagram information showing the correspondence between the second identification information and the exercise type information unique to the segmented area for each of the plurality of specific areas;
A communication system characterized by the above. The communication system according to any one of claims 1 to 7,
The second communication device is
A communication system characterized in that the communication system is installed in a substantially matrix shape over the specific area. The communication system according to any one of claims 2 to 8,
The biological information acquisition means includes
Beat information acquisition means for acquiring the user's beat information;
Including
The analysis calculation control means includes
Analyzing and calculating based on the beat number information in the beat number information acquisition means, calculating the analysis result physical quantity,
A communication system characterized by the above. The communication system according to any one of claims 2 to 9,
The biological information acquisition means includes
Electrocardiogram information acquisition means for acquiring electrocardiogram information of the user;
Including
The analysis calculation control means includes
Analytical calculation based on electrocardiographic information in the electrocardiographic information acquisition means, calculating the analysis result physical quantity,
A communication system characterized by the above. The communication system according to any one of claims 2 to 10,
The biological information acquisition means includes
Body temperature information acquisition means for acquiring body temperature information of the user;
Including
The analysis calculation control means includes
Analytical calculation based on body temperature information in the body temperature information acquisition means, calculating the analysis result physical quantity,
A communication system characterized by the above. The communication system according to any one of claims 2 to 11,
The biological information acquisition means includes
Three-dimensional motion acceleration information acquisition means for acquiring three-dimensional motion acceleration information of the user;
Including
The analysis calculation control means includes
Analytical calculation based on the three-dimensional motion acceleration information in the three-dimensional motion acceleration information acquisition means, calculating the analysis result physical quantity,
A communication system characterized by the above. The communication system according to any one of claims 1 to 12,
A reception terminal to which the first identification information and user identification information for identifying the user are input;
Further comprising
The management device
User information storage processing means for storing the user identification information and the first identification information in association with each other;
A communication system comprising: The communication system according to any one of claims 1 to 13,
A display terminal that allows the user to refer to the analysis result physical quantity based on the user's operation input;
Further comprising
The management device
Display that performs control to select and control an analysis result physical quantity corresponding to the user based on a request from the display terminal, transmit the analysis result physical quantity to the display terminal, and display the analysis result physical quantity on the display terminal Control means,
A communication system, further comprising: Biometric information from a first communication device attached to a user who uses each divided area obtained by dividing a specific area into a plurality of areas, and any one of a plurality of second communication apparatuses installed over the specific area And managing the biological information,
The first identification information and the biological information from the first communication device, and the second identification information from the second communication device are received from the second communication device, and the second identification information and the first identification are received. Identification information acquisition means for acquiring information and the biological information;
Area use for grasping the type of use form of the divided area to which the user belongs based on the type information indicating the use form of the divided area associated with the second identification information and the first identification information Form grasping means;
In the analysis calculation method selected and controlled based on the type information of the divided area grasped by the area use form grasping means, selecting and controlling each analysis calculation method of the biological information according to each of the divided areas An analysis calculation control means for performing control processing for performing analysis processing of the biological information of the user and writing the analysis result physical quantity information corresponding to the analysis calculation in correspondence with the first identification information in a specific storage area; ,
A management device comprising: Biometric information from a first communication device attached to a user who uses each divided area obtained by dividing a specific area into a plurality of areas, and any one of a plurality of second communication apparatuses installed over the specific area A management device that processes requests from a reception terminal that can communicate with and manage the biological information,
A process of writing the user identification information for identifying the user, the first identification information for identifying the first communication device, and the start time information in association with each other based on a request from the reception terminal in a specific storage area First registration means for performing
Based on a request from the reception terminal, a second registration unit that performs a process of writing the first identification information and end time information in association with each other in the one storage area;
The start time information and the end time information are selected and controlled in accordance with each of the segmented regions, and the analysis calculation method is selected based on the type information of the identified segmented region. Control that performs an analysis operation based on the biometric information and writes the analysis result physical quantity information calculated in the analysis operation to a specific other storage area corresponding to the user identification information for identifying the user Analysis operation control means for
A management device comprising: Biometric information from a first communication device attached to a user who uses each divided area obtained by dividing a specific area into a plurality of areas, and any one of a plurality of second communication apparatuses installed over the specific area A management apparatus that performs processing to display the analysis result physical quantity on a display terminal capable of receiving and managing the biological information and communicating with the information,
Identification information receiving means for performing processing for receiving user identification information for identifying the user from the display terminal used by the user;
Type information indicating a use form of the segmented area associated with the second identification information for identifying the second communication device, and the utilization associated with the first identification information for identifying the first communication device Based on the user identification information, grasps the type of use form of the divided area to which the user belongs, and uses the analysis calculation method selected based on the type information of the grasped divided area. Analysis calculation control means for performing a control process of performing analysis calculation of the biometric information of the person, and writing the analysis result physical quantity information calculated and calculated in correspondence with the user identification information in a specific storage area;
Processing for obtaining the analysis result physical quantity information and the type information corresponding to the user identification information analyzed by the analysis calculation control means, and outputting the analysis result physical quantity information and the type information to the display terminal A result output means for performing processing;
A management device comprising: A management apparatus that wirelessly receives biological information from another communication device attached to a user who uses each of the divided areas divided into a plurality of areas and provides analysis physical quantity information obtained by analyzing the biological information. A plurality of communication devices installed over the specific area,
First control means for performing control processing for receiving the first identification information for identifying the other communication device and the biological information from the first communication device;
Identification information adding means for performing a control process of further adding second identification information for identifying the biological information to which the first identification information is attached;
Second control means for performing a control process of transmitting the biological information with the first identification information and the second identification information to the management device;
A communication device comprising: Biometric information from a first communication device attached to a user who uses each divided area obtained by dividing a specific area into a plurality of areas, and any one of a plurality of second communication apparatuses installed over the specific area A reception terminal capable of communicating with a management device that provides analysis result physical quantity information obtained by analyzing the biological information,
An accepting terminal control means for performing control to associate the first identification information for identifying the first communication device with the user identification information of the user and output to the management device based on an operation input;
The reception terminal characterized by including. Biometric information from a first communication device attached to a user who uses each divided area obtained by dividing a specific area into a plurality of areas, and any one of a plurality of second communication apparatuses installed over the specific area A display terminal capable of communicating with the management device that provides the analysis result physical quantity information received through the analysis of the biological information,
Based on the operation input, user identification information for identifying the user is output to the management apparatus, so that the management apparatus is associated with the second identification information for identifying the second communication apparatus. The use of the divided area to which the user belongs based on the type information indicating the usage form of the divided area and the user identification information associated with the first identification information for identifying the first communication device. The analysis result of the user's biological information is analyzed by the analysis calculation method selected based on the type information of the segmented area obtained by grasping the type of form, and the analysis result obtained by the analysis calculation After performing processing for writing physical quantity information in a specific storage area in association with the user identification information, the management apparatus acquires and obtains the analysis result physical quantity information and the type information corresponding to the user identification information. The result of the analysis the physical quantity information and the type information was accepted from the management apparatus, the analysis result physical quantity information and the display terminal control means for displaying the type information,
A display terminal comprising: A plurality of second communication devices installed across the specific region by transmitting first identification information transmitted from a first communication device attached to a user who uses each of the divided regions divided into a plurality of regions in the specific region A region identification information acquisition step in which the second communication device receives the second identification information for identifying the second communication device and the first identification information;
The computer refers to the area usage pattern diagram information indicating the correspondence relationship between the second identification information registered in advance and the type information indicating the type of usage pattern of the divided area, and is acquired in the area identification information acquisition step. Based on the second identification information and the first identification information, an area use form grasping step for grasping the type of use form of the divided area to which the user belongs,
An information processing method comprising: A first communication device attached to a user who uses each of the divided areas obtained by dividing the specific area into a plurality of areas, a biological information acquisition step of acquiring the user's biological information;
The first identification information and the biological information transmitted from the first communication device are received by any one of the plurality of second communication devices installed across the specific region, and An identification information specifying step for specifying second identification information for identifying the second communication device;
An identification information acquisition step in which the computer acquires the second identification information, the first identification information, and the biological information;
The computer refers to area usage pattern diagram information indicating a correspondence relationship between the second identification information registered in advance and type information indicating the type of usage pattern of the divided area, and is acquired in the identification information acquisition step. Based on the second identification information and the first identification information, an area use form grasping step for grasping the type of use form of the divided area to which the user belongs,
The computer selects and controls each analysis calculation method of the biological information according to each of the divided areas, and the analysis calculation is selected based on the type information of the divided areas grasped in the area use form grasping step Analytical calculation for performing control processing of performing analysis calculation of the biological information of the user by a technique and writing the analysis result physical quantity information corresponding to the analysis calculation in correspondence with the first identification information Control steps;
An information processing method comprising: The information processing method according to claim 22,
The analysis calculation control step includes
Each stage range in which the average value of each biological information acquired at each specific time is defined in a plurality of stages, and different coefficients corresponding to each stage range are associated in advance, and the average value is A coefficient acquisition step for determining which stage range is in each stage range and acquiring a corresponding coefficient;
Based on the unit physical quantity information per unit time according to the type of exercise in the segmented area, the first total exercise time information exercised in the segmented area, and the coefficient, A first physical quantity calculating step for calculating one physical quantity;
An information processing method comprising: The information processing method according to claim 22,
The analysis result physical quantity information is:
Calorie consumption information by exercise of the user of the type of exercise corresponding to at least one of the segmented regions,
Including
The analysis calculation control step includes
Based on the unit calorie consumption information per unit time according to the type of exercise in the segmented area, segmented area exercise time information exercised in the segmented area, and consumption in the segmented area A calorie information calculating step for calculating the calorie information;
An information processing method comprising: The information processing method according to claim 24,
The analysis calculation control step includes
Based on the calorie consumption information of the segmented area calculated in the segmented area calorie consumption calculating step, and the types of exercise of the plurality of segmented areas used by the user, each of the segmented areas Total calorie consumption calculation step for calculating the total calorie consumption, which is the sum of the calorie consumption,
An information processing method comprising: The information processing method according to any one of claims 22 to 25,
The biological information includes beat number information,
The analysis calculation control step includes
An information processing method comprising performing an analysis operation based on the beat number information. The information processing method according to any one of claims 22 to 26,
The biological information includes electrocardiogram information,
The analysis calculation control step includes
An information processing method characterized by performing an analysis calculation based on the electrocardiogram information. The information processing method according to any one of claims 22 to 27,
The biological information includes body temperature information,
The analysis calculation control step includes
An information processing method comprising performing an analysis operation based on the body temperature information. The information processing method according to any one of claims 22 to 28,
The biological information includes three-dimensional motion acceleration information,
The analysis calculation control step includes
An information processing method comprising performing an analysis operation based on the three-dimensional motion acceleration information. Biometric information from a first communication device attached to a user who uses each divided area obtained by dividing a specific area into a plurality of areas, and any one of a plurality of second communication apparatuses installed over the specific area An information processing method for analyzing the biological information using a management device that manages the biological information,
Presenting a first receptionist for performing a process of prompting input of user identification information for identifying the user by presenting information to the receptionist and the first identification information for identifying the first communication device. Steps,
A first identification information receiving step for performing a process in which the management device receives the user identification information and the first identification information;
A start time information acquisition step in which the management device performs a process of acquiring start time information;
A first registration step in which the management device performs a process of writing the user identification information, the first identification information, and the start time information in a specific storage area in association with each other;
The management device presents information to the receptionist to identify the first communication device, and a second receptionist presentation step for performing a process of prompting input of end information;
An end information receiving step for performing a process in which the management device receives the first identification information and the end information;
An end time information acquisition step in which the management device performs a process of acquiring end time information based on the end information;
A second registration step in which the management device performs a process of writing the first identification information and the end time information in association with each other in the one storage area;
The management device selects and controls each analysis calculation method of the biological information in accordance with each of the segmented areas, and the start time information is selected in the analysis calculation method selected based on the type information of the segmented area that is grasped. The analysis calculation is performed based on the end time information and the biological information, and the analysis result physical quantity information calculated by the analysis calculation is written in another specific storage area corresponding to the user identification information for identifying the user. An analysis calculation control step for controlling the processing;
An information processing method comprising: Biometric information from a first communication device attached to a user who uses each divided area obtained by dividing a specific area into a plurality of areas, and any one of a plurality of second communication apparatuses installed over the specific area An information processing method for performing a process of providing an analysis result physical quantity obtained by analyzing the biological information using a management device that manages the biological information,
A presenting step in which the management device presents information to the user and prompts input of user identification information;
A user identification information receiving step in which the management device performs a process of receiving the user identification information;
A result information acquisition step in which the management device performs a process of acquiring analysis result physical quantity information corresponding to the user identification information;
A result output step in which the management device performs a process of outputting the analysis result physical quantity information; and
An information processing method comprising: A management apparatus that wirelessly receives biological information from another communication device attached to a user who uses each of the divided areas divided into a plurality of areas and provides analysis physical quantity information obtained by analyzing the biological information. An information processing method for performing processing to be transmitted to
A first receiving step in which a computer performs a control process of receiving first identification information for identifying the other communication device and the biological information from the first communication device;
An identification information adding step in which a computer performs a process of further adding second identification information for identifying the biological information to which the first identification information is attached;
An output step in which a computer performs a process of outputting the biological information with the first identification information and the second identification information to the management device;
An information processing method comprising: Biometric information from a first communication device attached to a user who uses each divided area obtained by dividing a specific area into a plurality of areas, and any one of a plurality of second communication apparatuses installed over the specific area An information processing method in which a reception terminal capable of communicating with a management apparatus that provides analysis result physical quantity information that has been received and analyzed through the biological information performs processing,
An accepting terminal control step for performing control for associating the first identification information for identifying the first communication device with the user identification information of the user and outputting the same to the management device based on an operation input;
An information processing method comprising: Biometric information from a first communication device attached to a user who uses each divided area obtained by dividing a specific area into a plurality of areas, and any one of a plurality of second communication apparatuses installed over the specific area An information processing method in which a display terminal capable of communicating with a management apparatus that provides analysis result physical quantity information that has been received and analyzed through the biological information performs processing,
Based on the operation input, user identification information for identifying the user is output to the management apparatus, so that the management apparatus is associated with the second identification information for identifying the second communication apparatus. The use of the divided area to which the user belongs based on the type information indicating the usage form of the divided area and the user identification information associated with the first identification information for identifying the first communication device. The analysis result of the user's biological information is analyzed by the analysis calculation method selected based on the type information of the segmented area obtained by grasping the type of form, and the analysis result obtained by the analysis calculation After performing processing for writing physical quantity information in a specific storage area in association with the user identification information, the management apparatus acquires and obtains the analysis result physical quantity information and the type information corresponding to the user identification information. The result of the analysis the physical quantity information and the type information was accepted from the management device, the display terminal control step of displaying the analysis result physical quantity information and the type information,
An information processing method comprising: Biometric information from a first communication device attached to a user who uses each divided area obtained by dividing a specific area into a plurality of areas, and any one of a plurality of second communication apparatuses installed over the specific area An information processing service method for providing an information providing service related to analysis result physical quantity information obtained by analyzing the biological information for the user using a management device that manages the biological information,
The management device receives the first identification information and the biological information from the first communication device and the second identification information from the second communication device from the second communication device, and the second identification information. And an identification information acquisition step of acquiring the first identification information and the biological information;
Based on the type information indicating the usage mode of the partitioned area associated with the second identification information and the first identification information, the management device uses the type of usage mode of the partitioned area to which the user belongs. An area usage pattern grasping step for grasping
The management device selects and controls each analysis calculation method of the biological information according to each of the divided areas, and is selected based on the type information of the divided areas grasped in the area use form grasping step. The analysis calculation method is used to perform an analysis calculation of the user's biological information, and to perform a process of writing the analysis result physical quantity information calculated by the analysis calculation in a specific storage area corresponding to the first identification information Analysis calculation control step;
An analysis result information providing step in which the management device provides the analysis result physical quantity to the user of the first identification information;
An information processing service method comprising: An information processing service method in which a computer provides an information providing service related to analysis result physical quantity information based on biological information to a user who uses each divided area obtained by dividing a specific area into a plurality of areas,
A biometric information acquisition step in which the computer acquires the biometric information of the user;
A communication device identification information acquisition step in which a computer outputs a request to any of a plurality of communication devices installed over the specific area, and acquires communication device identification information for identifying the communication device;
An area use form grasping step in which the computer grasps type information indicating the type of use form of the user corresponding to each of the divided areas based on the communication device identification information;
Based on the user's biological information acquired in the biological information acquisition step and the type information acquired in the region usage form determination step, the computer responds to the type information of the segmented region. Analysis calculation control step for calculating the physical quantity information of the analysis results obtained,
A result output step of outputting the analysis result physical quantity information;
An information processing service method comprising: Biometric information from a first communication device attached to a user who uses each divided area obtained by dividing a specific area into a plurality of areas, and any one of a plurality of second communication apparatuses installed over the specific area A management program that is executable by a computer that manages the biological information,
The first identification information and the biological information from the first communication device, and the second identification information from the second communication device are received from the second communication device, and the second identification information and the first identification are received. Identification information acquisition means for acquiring information and the biological information;
Area use for grasping the type of use form of the divided area to which the user belongs based on the type information indicating the use form of the divided area associated with the second identification information and the first identification information Form grasping means;
In the analysis calculation method selected and controlled based on the type information of the divided area grasped by the area use form grasping means, selecting and controlling each analysis calculation method of the biological information according to each of the divided areas Analytical calculation control means for performing control processing for performing analysis processing of the biometric information of the user and writing the analysis result physical quantity information in the specific storage area in association with the first identification information ,
A management program for causing a computer to function. Biometric information from a first communication device attached to a user who uses each divided area obtained by dividing a specific area into a plurality of areas, and any one of a plurality of second communication apparatuses installed over the specific area A management program that can be executed by a computer that processes the request from a reception terminal capable of communicating with the biological information while managing the biological information,
Based on the request from the reception terminal, the user identification information for identifying the user, the first identification information for identifying the first communication device, and the start time information are associated with each other and written in a specific storage area. A first registration means for performing processing;
Based on a request from the reception terminal, a second registration unit that performs a process of writing the first identification information and end time information in association with each other in the one storage area;
The start time information and the end time information are selected and controlled in accordance with each of the segmented regions, and the analysis calculation method is selected based on the type information of the identified segmented region. Control that performs an analysis operation based on the biometric information and writes the analysis result physical quantity information calculated in the analysis operation to a specific other storage area corresponding to the user identification information for identifying the user As analytical calculation control means to
A management program for causing a computer to function. Biometric information from a first communication device attached to a user who uses each divided area obtained by dividing a specific area into a plurality of areas, and any one of a plurality of second communication apparatuses installed over the specific area A management program for performing processing to display the analysis result physical quantity on a display terminal capable of receiving and managing the biological information and communicating with the information,
Identification information receiving means for performing processing for receiving user identification information for identifying the user from the display terminal used by the user;
Type information indicating a use form of the segmented area associated with the second identification information for identifying the second communication device, and the utilization associated with the first identification information for identifying the first communication device Based on the user identification information, grasps the type of use form of the divided area to which the user belongs, and uses the analysis calculation method selected based on the type information of the grasped divided area. Analysis calculation control means for performing control processing for performing analysis calculation of the biometric information of the person, and writing the analysis result physical quantity information calculated and calculated in correspondence with the user identification information in a specific storage area;
Processing for obtaining the analysis result physical quantity information and the type information corresponding to the user identification information analyzed by the analysis calculation control means, and outputting the analysis result physical quantity information and the type information to the display terminal As a result output means for processing,
A management program characterized by operating a computer. A management program executable by a computer,
A plurality of second communication devices installed across the specific region by transmitting first identification information transmitted from a first communication device attached to a user who uses each of the divided regions divided into a plurality of regions in the specific region A region identification information acquisition process in which the computer receives the second identification information for identifying the second communication device and the first identification information;
The computer refers to the area usage pattern diagram information indicating the correspondence relationship between the second identification information registered in advance and the type information indicating the type of usage pattern of the divided area, and is acquired in the area identification information acquisition step. Based on the second identification information and the first identification information, an area use form grasping process for grasping the type of use form of the divided area to which the user belongs;
A management program that causes a computer to perform processing including: A computer is a management program for performing processing related to analysis result physical quantity information based on biological information, for a user who uses each divided area obtained by dividing a specific area into a plurality of areas,
Biometric information acquisition processing for acquiring biometric information of the user;
A communication device identification information acquisition process for outputting a request to any one of the plurality of communication devices installed over the specific area and acquiring communication device identification information for identifying the communication device;
Based on the communication device identification information, an area use form grasping process for grasping type information indicating the type of use form of the user corresponding to each divided area;
Based on the biometric information of the user acquired in the biometric information acquisition process and the type information acquired in the area use form grasping process, an analysis result corresponding to the type information of the segmented area Analysis operation control processing for calculating physical quantity information;
A result output process for outputting the analysis result physical quantity information;
A management program that causes a computer to perform a process including: A management apparatus that wirelessly receives biological information from another communication device attached to a user who uses each of the divided areas divided into a plurality of areas and provides analysis physical quantity information obtained by analyzing the biological information. A communication program that can be executed by a plurality of computers installed over the specific area,
First control means for performing control processing for receiving the first identification information for identifying the other communication device and the biological information from the first communication device;
Identification information adding means for performing control processing for further adding second identification information for identifying the biological information to which the first identification information is attached;
As a second control means for performing a control process of transmitting the biological information with the first identification information and the second identification information to the management device,
A communication program for causing a computer to function. Biometric information from a first communication device attached to a user who uses each divided area obtained by dividing a specific area into a plurality of areas, and any one of a plurality of second communication apparatuses installed over the specific area A computer program that can be executed by a computer that can communicate with a management apparatus that provides analysis result physical quantity information that has been received through the analysis of the biological information,
As reception terminal control means for performing control for associating the first identification information for identifying the first communication device with the user identification information of the user based on an operation input and outputting it to the management device,
A terminal program characterized by causing a computer to function. Biometric information from a first communication device attached to a user who uses each divided area obtained by dividing a specific area into a plurality of areas, and any one of a plurality of second communication apparatuses installed over the specific area A computer program that can be executed by a computer that can communicate with a management apparatus that provides analysis result physical quantity information that has been received through the analysis of the biological information,
Based on the operation input, user identification information for identifying the user is output to the management apparatus, so that the management apparatus is associated with the second identification information for identifying the second communication apparatus. The use of the divided area to which the user belongs based on the type information indicating the usage form of the divided area and the user identification information associated with the first identification information for identifying the first communication device. The analysis result of the user's biological information is analyzed by the analysis calculation method selected based on the type information of the segmented area obtained by grasping the type of form, and the analysis result obtained by the analysis calculation After performing processing for writing physical quantity information in a specific storage area in association with the user identification information, the management apparatus acquires and obtains the analysis result physical quantity information and the type information corresponding to the user identification information. The result of the analysis the physical quantity information and the type information was accepted from the management device, a display terminal control means for displaying the analysis result physical quantity information and the type information,
A terminal program characterized by causing a computer to function. Biometric information from a first communication device attached to a user who uses each divided area obtained by dividing a specific area into a plurality of areas, and any one of a plurality of second communication apparatuses installed over the specific area Is a data structure of information used for processing for analyzing the biological information performed by a computer that manages the biological information,
A first structure part in which second identification information for identifying the second communication device and type information indicating a type of usage form of the divided area are stored correspondingly;
A second structure unit that stores first identification information for identifying the first communication device, user identification information for identifying the user, and the biological information;
Including
The first structure part is:
Computer
Based on the second identification information received from the second communication device together with the biological information, the area use for grasping the type of use form of the divided area to which the user belongs by acquiring the corresponding type information Form grasp processing,
Used to do
The first structure part and the second structure part are:
Computer
When selecting and controlling each analysis calculation method of the biological information according to each of the segmented regions, the analysis calculation method is selected based on the type information of the segmented region grasped in the region use form grasping process. The analysis calculation method is performed based on the biological information by the selected analysis calculation method, and the analysis result physical quantity information obtained by the analysis calculation is received via the second communication device together with the biological information. Analysis calculation control processing for controlling the user identification information corresponding to one identification information and processing for writing to a specific storage area in association with the user identification information;
Used to do the
A data structure characterized by that.

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