TWI511070B - Telemedicine system and method thereof - Google Patents

Description

Telemedicine system and method

The present invention relates to a telemedicine system, and more particularly to a telemedicine system that can efficiently collect physiological information.

In an aging society, the medical needs of chronic patients and elderly patients are increasing and the medical expenses consumed are soaring, but medical resources are limited and medical services are increasing. Therefore, how to respond to the impact of the aging population, proper control of medical expenses and effective use of medical resources is an urgent issue. In addition, due to the shortage of medical equipment in remote areas or outlying islands, how to improve the medical gap between urban and rural areas has been tested in response to the advent of an aging society.

For people in remote areas, transportation is very inconvenient. Therefore, it is very difficult to go to the hospital for testing regularly. It consumes a lot of energy and has high transportation costs. The so-called telemedicine is through information and telecommunications technology. To exchange medical clinical data and expert opinions of patients in two separate places to overcome space and even time barriers. Telemedicine combines the expertise of computers, communication technology, and medical personnel to enable physicians to conduct video conferencing and air-to-air consultations thousands of miles apart, providing comprehensive medical care for people in remote and outlying areas.

However, although the telemedicine system in the prior art can use the video conferencing system for the purpose of real-time diagnosis, the medical staff still needs the physiological detection information of the patient to effectively evaluate the physiological state of the patient, especially Some chronic patients Physiological status tracking, so it is necessary to electronically record physiological detection information for a long time, but how to effectively collect the physiological detection information of patients is also a difficult point.

In view of this, the inventor has been engaged in the development and design experience of related fields for many years, and after the detailed design and careful evaluation of the above objectives, the invention has finally become practical.

The invention solves the problem that the remote medical system is difficult to collect physiological information.

The telemedicine system provided by the present invention comprises a measuring end, a servo end and an external input end.

The measuring end of the present invention is used for measuring at least one user. The user has an identification component. The measuring end of the present invention comprises a physiological signal detecting unit, a sensing unit and a transmitting unit. This is limited to this.

The sensing unit is configured to sense the identification component, and the identification component has an identification code, and the identification component can be a Radio Frequency Identification System (RFID) proximity card or a manual.

The physiological signal detecting unit is connected to the sensing unit and can be connected by wire or wirelessly. The present invention is not limited thereto; the physiological signal detecting unit provides a user to perform a physiological test, and the physiological signal detecting unit generates at least after performing physiological detection. a physiological signal, and the identification code and the physiological signal are processed to generate a detection signal, where the detection signal can be any combination of the identification code and the physiological signal, or any combination of the identification code and the physiological signal, This case is not limited to this. .

The transmission unit is connected to the physiological signal detecting unit, and can be connected in a wired or wireless manner. The present invention is not limited thereto, and the transmission unit is configured to transmit the detection signal to the server.

The measuring end of the invention further comprises a power unit for providing power to the The sensing unit, the physiological signal detecting unit and the transmitting unit can be charged in a wired or wireless manner, and the present invention is not limited thereto.

The servo end of the present invention comprises a storage unit, a transmission module and a comparison unit.

The transmission module of the server is configured to receive the detection signal and restore the identification code and the physiological signal.

The storage unit of the server is electrically connected to the transmission module, and the storage unit is configured to store the identification code and the physiological signal.

The comparison unit of the server is electrically connected to the transmission module and the storage unit, and the comparison unit compares whether the identification code already exists in the storage unit, and if so, the storage unit the physiological signal or the location The information is stored in the identification code. If not, the storage unit creates a new data according to the identification code, and the added data includes the identification code, the physiological signal or the location information.

The telemedicine system of the present invention may further comprise an external input terminal, and the external input terminal may be located at the measuring end or the servo end, and may even be located at any position, and the present invention is not limited thereto. The external input terminal can be a personal computer or a mobile phone, etc., and the case is not limited thereto. The user who holds the manual or the medical staff can connect to the server through the external input terminal, and log in to the basic information of the user corresponding to the file, or view the file. Previous records, etc.

The invention also provides a remote medical method, the step comprising: step 1. An identification component has an identification code, and a physiological signal detecting unit is driven to perform physiological detection on a user on a measuring end to obtain a physiological condition. Signaling, and processing the physiological signal and the identification code to generate a detection information; Step 2. The measurement terminal transmits the detection information to a storage unit of a server, and restores the identification code and the physiological signal; 3. The one of the servo terminals compares the identification code to the storage unit; if so, the storage unit stores the physiological signal corresponding to the identification code; if not, the storage unit follows the The identification code creates a new data, and the The newly added data contains the identification code and the physiological signal.

The telemedicine system and method provided by the present case utilizes a low-cost mobile medical box, and combines the widely used identification codes, such as two-dimensional barcodes, as the identification of the people, eliminating the complicated action of copying on paper, thereby benefiting In the community to promote the concept of health promotion, to facilitate the community to carry out physiological testing, to eliminate the people in remote areas, and all the testing data will be built on the server's server, so people can go online to understand their health at any time. Medical staff can also view physiological data at the first time and provide medical consultation services directly.

The reason is that the present invention studies the above problems, and after a long period of design and development, the "system and method of telemedicine" of the present invention is completed to solve the problem that the conventional telemedicine system fails to achieve.

100‧‧‧ Telemedicine system

110‧‧‧Measurement end

111‧‧‧physiological signal detection unit

112‧‧‧Sensor unit

113‧‧‧Transportation unit

114‧‧‧Display unit

115‧‧‧ Positioning unit

116‧‧‧Power unit

120‧‧‧Server

121‧‧‧ storage unit

122‧‧‧Transmission module

123‧‧‧ comparison unit

130‧‧‧identification

140‧‧‧ external input

1 is a block diagram of a telemedicine system of the present invention; a second diagram, a schematic diagram of a telemedicine system of the present invention; a third diagram, a schematic diagram of a detection signal of the present invention; and a fourth diagram, a method flow of telemedicine Figure.

In order to fully understand the effects of the present invention, the preferred embodiments of the present invention are described below with reference to the drawings and drawings. Please refer to the first figure, which is In the block diagram of the telemedicine system of the present invention, the telemedicine system 100 provided by the present invention includes a measuring end 110, a servo end 120 and an external input end 140.

The measuring end 110 of the present invention is used for measuring at least one user. The user has an identification component 130. The measurement terminal 110 of the present invention includes a physiological signal detecting unit 111, a sensing unit 112, a transmitting unit 113, and a positioning unit 115. The present invention is not limited thereto.

The sensing unit 112 is configured to sense the identification component 130, and the identification component 130 has an identification code. The identification component 130 can be a radio frequency identification system (RFID) proximity card or a manual. In an embodiment, The identification code of the RFID proximity card is a serial number, and the identification code of the manual is a one-dimensional barcode, a two-dimensional barcode, and a Hanxin code. This case is not limited thereto.

The physiological signal detecting unit 111 is connected to the sensing unit 112 and can be connected in a wired or wireless manner. The present invention is not limited thereto; the physiological signal detecting unit 111 provides a user to perform a physiological detection, such as blood pressure detection, heart rate detection, and blood glucose detection. The body temperature test, the body fat test, the blood oxygen concentration test, the electrocardiogram test or the combination of the above, the present invention is not limited thereto, and the physiological signal detecting unit 111 generates at least one physiological signal after performing the physiological test, for example, blood pressure data, heartbeat Data, blood glucose data, body temperature data, body fat data, blood oxygen concentration data, blood lipid data, uric acid information, blood pressure meter code, detection time or a combination of the above, the case is not limited thereto, and the identification code and the physiological signal After processing, a detection signal is generated, and the detection signal can be any combination of the identification code and the physiological signal, or any combination of the identification code, the physiological signal and the location information, and the present invention is not limited thereto.

In an embodiment, the sensing unit 112 can activate the physiological signal detecting unit 111 to perform the physiological detection through the identifier 130, that is, before the user performs the physiological detection, the sensing component 130 must be used for sensing. The unit 112 senses and drives the physiological signal detecting unit 111, which is not limited thereto.

Referring to the second figure, which is a schematic diagram of the telemedicine system of the present invention, the measuring end 110 of the present invention takes a mobile medical box as an example. In an embodiment, the physiological signal detecting unit 111 in the mobile medical box It can include a sphygmomanometer, an ear thermometer, a blood glucose machine, a blood fat machine, and a uric acid measuring device. This case is not limited thereto.

The positioning unit 115 is connected to the sensing unit 112, and can be connected in a wired or wireless manner. The present invention is not limited thereto; the positioning unit 115 is configured to generate a position information. In an embodiment, the positioning unit 115 in the mobile medical box is a Global Positioning System (GPS), this case is not limited to this.

The transmission unit 113 is connected to the physiological signal detecting unit 111 and the positioning unit 115, and can be connected in a wired or wireless manner. The transmission unit 113 is configured to transmit the detection signal and the position information to the server. 120. In an embodiment, the transmission unit 113 in the mobile medical box is a router of the Global System for Mobile Communications (GSM), and the present invention is not limited thereto.

The measuring terminal 110 of the present invention further includes a power unit 116 for supplying power to the sensing unit 112, the physiological signal detecting unit 111 and the transmitting unit 113, and can be charged in a wired or wireless manner. limit.

In one embodiment, the measuring end 110 includes a plurality of physiological signal detecting units 111, and the identification code is obtained by synchronizing with the single sensing unit 112, and the plurality of sets of detecting signals generated by the physiological signal detecting units 111 are also transmitted through a single transmission. The unit 113 is connected to the servo terminal 120.

Referring to the first figure, the server 120 of the present invention includes a storage unit 121, a transmission module 122, and a comparison unit 123.

The transmission module 122 of the server 120 is configured to receive the detection signal and the location information, and restore the detection signal to the identification code and the physiological signal.

The storage unit 121 of the server 120 is electrically connected to the transmission module 122. The storage unit 121 is configured to store the identification code, the physiological signal, and the location information.

The comparison unit 123 of the server 120 is electrically connected to the transmission module 122 and the storage unit 121. The comparison unit 123 compares whether the identification code already exists in the storage unit 121. If yes, the storage unit 121 And storing the physiological signal and the location information corresponding identifier, if not, the storage unit 121 is established according to the identifier A new item is added, and the added data includes the identification code, the physiological signal and the location information.

In one embodiment, the measuring end 110 takes a mobile medical box as an example, and the medical staff can carry the mobile medical box to a remote area to inspect the local people. In this embodiment, the inspection location is an activity center of the remote area, and the locality is The lieutenant informs the public in advance to check the activity center at a specific time, and the medical staff issues a manual for each citizen, that is, the identification component 130 of the present invention, each of which contains a two-dimensional barcode, the two-dimensional barcode. The barcode represents the information of the holder of this manual. After the medical staff scans the 2D barcode, the holder of the manual can be immediately used.

After the medical staff scans the two-dimensional barcode, the physiological detection unit 111 in the mobile medical box is used to perform physiological detection on the public, for example, blood pressure detection, heart rate detection, blood sugar detection, body temperature detection, body fat detection, blood oxygen concentration detection. The uric acid test, the electrocardiogram test or the combination of the above, the present invention is not limited thereto, and the two-dimensional barcode and the physiological signal are processed to generate a detection signal, and the detection signal can be the identification code and the physiological signal. Any combination, or any combination of the identification code, the physiological signal and the location information, is not limited thereto.

In an embodiment, please refer to the third figure, which is a schematic diagram of the detection signal of the present invention. After the medical staff scans the user manual held by the public A, the information of the identification code is 80000254, and the physiological signal detecting unit is used. The measurement of the systolic pressure of the population A is 120, the diastolic pressure is 80, and the detection signal generated by the above information may be 1208080000254, 8000025412080 or other combinations, and the invention is not limited thereto.

The identification code, the detection signal, and the location information are transmitted to the transmission module 122 of the server 120 through the transmission unit 113. The transmission module 122 transmits the data to the storage unit 121, and the storage unit 121 is configured to store the information. The identification code, the detection signal or the location information.

The server 120 usually combines with the information management system of the medical institution, and the server The comparison unit 120 of 120 first compares whether the identification code of the public A is already present in the storage unit 121. If yes, the storage unit 121 stores the detection signal or the location information corresponding identification code. If not, the storage unit 121 follows the storage unit 121. The identification code establishes a new data, and the added data includes the identification code, the detection signal or the location information, and finally the medical personnel input the basic information corresponding to the identification code of the people, and the basic information includes the The name, address, identity number, spouse, child, or combination of the above.

As a result, medical personnel only need to collect the physiological information of the local people through the identification code when they are in the local inspection. Other basic information that requires time input can be returned to the medical institution before input, so as to save the detection time of the people.

In one embodiment, the measuring terminal 110 further includes a display unit 114 or a video unit. If the person with chronic diseases detects the situation, the previous record can be viewed through the display unit 114, and the field can immediately make a preliminary judgment. When the detected physiological condition of the people is extremely bad or an unexpected situation occurs, the video unit can also request support immediately. This case is not limited to this.

In addition, the telemedicine system of the present invention may further include an external input terminal 140, and the external input terminal 140 may be located at the measuring end 110 or the servo end 120, and may even be located at any position, which is not limited thereto. The external input terminal 140 can be a personal computer or a mobile phone, etc., and the present invention is not limited thereto. The user or the medical staff who holds the user manual can connect to the server 120 through the external input terminal 140, and log in to the user's basic data corresponding to the file. , or view previous records, etc.

According to the above embodiment, the information transmitted from the activity center to the hospital's servo is the detection signal and the identification code or location information, but does not include the household information. Therefore, the holder of the manual must first complete the basic information, and then the medical staff. Go back to the hospital and rebuild the file to save the people's testing time. Therefore, if the person who is checking for the first time will use the identification code as the identification of his identity, after the medical staff has filed the file, or after the public has completed the registration of the identity, The new information created for the identification code will contain the basic information of the user manual.

Please refer to the fourth figure, which is a flowchart of the method for telemedicine of the present invention. The method for telemedicine provided by the present invention comprises the following steps:

Step 1. An identification component 130 has an identification code, and a physiological signal detecting unit 111 is driven by a measuring terminal 110 to perform physiological detection on a user to obtain a physiological signal, and the physiological signal and the identification code are processed. To generate a test information. The detection signal may be any combination of the identification code and the physiological signal, or any combination of the identification code, the physiological signal and the location information, and the present invention is not limited thereto. The identification component 130 can be an RFID proximity card or a manual. The identification code of the manual can be a two-dimensional barcode. The present invention is not limited thereto.

Step 2. The measuring terminal 110 transmits the detection information to a storage unit 121 of a server 120, and restores the identification code and the physiological signal.

Step 3. The comparison unit 123 of the server 120 compares whether the identification code already exists in the storage unit 121; if yes, the storage unit 121 stores the physiological signal corresponding to the identification code; if not, then The storage unit 121 creates a new data according to the identification code, and the new data includes the identification code and the physiological signal.

The telemedicine system and method provided by the present case utilizes a low-cost mobile medical box, and combines the widely used identification codes, such as two-dimensional barcodes, as the identification of the people, eliminating the complicated action of copying on paper, thereby benefiting In the community to promote the concept of health promotion, to facilitate the community to carry out physiological testing, to eliminate the people in remote areas, and all the testing data will be built on the server's server, so people can go online to understand their health at any time. Medical staff can also view physiological data at the first time and provide medical consultation services directly.

The above embodiments are merely illustrative of the principles and effects of the invention and are not intended to limit the invention. Therefore, those skilled in the art can make modifications and changes to the above embodiments without departing from the spirit of the invention. The scope of the invention should be as set forth in the appended claims.

100‧‧‧ Telemedicine system

110‧‧‧Measurement end

111‧‧‧physiological signal detection unit

112‧‧‧Sensor unit

113‧‧‧Transportation unit

114‧‧‧Display unit

115‧‧‧ Positioning unit

116‧‧‧Power unit

120‧‧‧Server

121‧‧‧ storage unit

122‧‧‧Transmission module

123‧‧‧ comparison unit

140‧‧‧ external input

Claims (9)

A telemedicine system comprising: a measuring end for measuring at least one user, the user having an identification component, and the identification component has an identification code, wherein the measuring end comprises a sensing unit that senses the identification component through the sensing unit to activate a physiological signal detecting unit; the physiological signal detecting unit is connected to the sensing unit, and the physiological signal detecting unit measures the user to generate At least one physiological signal, combined with the identification code and the value measured by the physiological signal, generates a detection signal, the detection signal is a continuous value code; a transmission unit is connected to the physiological signal detection unit to transmit the detection signal And a power unit for supplying power to the sensing unit, the physiological signal detecting unit and the transmitting unit, and a servo end, comprising: a transmitting module, configured to receive the detecting signal, and restore the continuous value code The identification code and the physiological signal; a storage unit electrically connected to the transmission module to store the identification code and the Signal processing; and a comparison unit comparing unit electrically connected to the transfer module and the storage unit, Whether the identification code already exists in the storage unit, and if so, the storage unit stores the physiological signal corresponding to the identification code; if not, the storage unit creates a new data according to the identification code, and the storage unit The newly added data includes the identification code and the physiological signal, and is connected to the server by an external input terminal to perform login of all the basic information of the user of the identification code. The telemedicine system of claim 1, wherein the identification component is a radio frequency identification system (RFID) proximity card or a manual. The telemedicine system of claim 1, wherein the measuring end further comprises a display unit. The remote medical system of claim 1, wherein the measuring end further comprises a positioning unit for generating a position information, wherein the detecting signal is combined with the identification code, the position information, and the physiological signal. The value generates a detection signal, which is then restored at the server and stored. The telemedicine system of claim 1, wherein the physiological signal detecting unit comprises blood pressure detecting, heart rate detecting, blood sugar detecting, body temperature detecting, body fat detecting, blood oxygen concentration detecting, electrocardiogram detecting or a combination thereof. The telemedicine system of claim 1, wherein the physiological signal includes the user's blood pressure data, heartbeat data, blood glucose data, body temperature data, body fat data, blood oxygen concentration data, blood pressure meter code, detection time, or Combination of the above. A remote medical method includes: an identification component having an identification code, driving a physiological signal detecting unit to perform physiological detection on a user through a measuring terminal, obtaining at least one physiological signal, and combining the physiological signals The measured value and the identification code generate a detection information, and the detection signal is a continuous value code; the measurement end transmits the detection information to a storage unit of a server, and restores the continuous value code to the identification code And the physiological signal; the one of the servo terminals compares the identification code to the storage unit; if so, the storage unit stores the physiological signal corresponding to the identification code; if not, the storage The unit establishes a new data according to the identification code, and the new data includes the identification code and the physiological signal, and is connected to the server by an external input terminal, and performs basic information of all users of the identification code. log in. The telemedicine method of claim 7, wherein the detection information includes a position information of the measurement end in addition to the identification code and the value measured by the physiological signal, and then is restored on the server end. And save. The telemedicine method of claim 7, wherein the basic information is the user's name, address, identity card number, spouse, child, or a combination thereof.