JP2004088172A - Mobile terminal system, communication control method, radio terminal remote control system, and remote control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To make radio connection in a short period of time in the case that a plurality of mobile terminals make communication via a near distance radio communication means between the plurality of mobile terminals. <P>SOLUTION: A procedure for radio connection in compliance with the Bluetooth specifications between mobile phones 20 and 30 is made via a radio base station 40. After the completion of the radio connection, communication via the radio base station 40 is interrupted and the radio communication in compliance with the Bluetooth specification is made between the mobile phones 20 and 30. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a mobile terminal system, a communication control method, a wireless terminal remote control system, and a remote control method, and is particularly used when communication is performed between a plurality of mobile terminals via short-range wireless communication means. More particularly, the present invention relates to a mobile terminal system and a communication control method, and a wireless terminal remote control system and a remote control method suitable for remotely controlling a wireless terminal having a short-range wireless communication means from a long distance.
[0002]
[Prior art]
In a portable terminal system that wirelessly connects two portable terminals located close to each other to communicate with each other, Bluetooth (Bluetooth) is often used as a short-range wireless communication means. Bluetooth® has been developed as a wireless interface for portable terminals such as between a notebook computer and a digital camera, and uses radio waves in the 2.4 GHz band to transmit data at a maximum of 1 Mbit / sec over a distance of about 10 m. (Standard output; 1 mW). In addition, as an option, a specification that increases the antenna power and extends the communication distance to 100 m (output: 100 mW) is also specified. Bluetooth is highly versatile because it can be used without a license.
[0003]
Conventionally, this kind of portable terminal system is composed of portable telephones 1 and 2 and a radio base station 3 as shown in FIG. The mobile phone 1 has a transmission / reception unit 1a based on Bluetooth specifications. The mobile phone 1 is wirelessly connected to the mobile phone 2 within a predetermined distance range via the transmission / reception unit 1a. Communicates with The mobile phone 2 has a transmission / reception unit 2a based on the Bluetooth® specification. The mobile phone 2 is wirelessly connected to the mobile phone 1 within a predetermined distance range via the transmission / reception unit 2a. Communicates with The wireless base station 3 communicates with the mobile phones 1 and 2 in the small zone in which it is responsible.
[0004]
In this portable terminal system, when the distance between the portable telephone 1 and the portable telephone 2 exceeds the distance based on the Bluetooth specification, the wireless base station 3 (not shown) is provided between the portable telephone 1 and the portable telephone 2. Communication is performed via the serving mobile switching center and the gateway mobile switching center. Further, when the distance between the mobile phone 1 and the mobile phone 2 is within the range based on the Bluetooth® specification, there is no need to use the mobile phone service. The transmitting / receiving unit 1a of the telephone 1 makes an inquiry to the transmitting / receiving unit 2a of the mobile phone 2, and the transmitting / receiving unit 2a responds to the transmitting / receiving unit 1a. Thereafter, the transmission / reception unit 1a issues a connection command to the transmission / reception unit 2a, and the transmission / reception unit 2a responds to the transmission / reception unit 1a. Then, the transmitting / receiving unit 1a issues an authentication command to the transmitting / receiving unit 2a, and the transmitting / receiving unit 2a responds to the transmitting / receiving unit 1a. In this way, the wireless connection between the transmission / reception unit 1a and the transmission / reception unit 2a is completed, and communication is performed. In this case, no communication fee is required.
[0005]
In addition, there is a wireless terminal remote control system including a wireless terminal to be remotely controlled and a communication terminal that is wirelessly connected to the wireless terminal within a range based on the Bluetooth® specification and performs remote control. Conventionally, as this kind of technology, there is a technology described in, for example, JP-A-2002-57934.
FIG. 12 is a diagram showing a configuration of a main part of a conventional wireless terminal remote control system described in the publication.
The wireless terminal remote control system includes a personal computer (personal computer) 11 and a digital camera 12, as shown in FIG. The personal computer 11 has a transmitting / receiving unit 11a based on Bluetooth® specifications, and wirelessly connects to the digital camera 12 within a predetermined distance range via the transmitting / receiving unit 11a. The digital camera 12 is a target to be remotely controlled by the personal computer 11, has a transmitting / receiving unit 12a based on Bluetooth® specifications, and is wirelessly connected to the personal computer 11 within a predetermined distance via the transmitting / receiving unit 12a. You.
[0006]
In this wireless terminal remote control system, when the distance between the personal computer 11 and the digital camera 12 is within the range based on the Bluetooth® specification, the transmitting / receiving unit 11a and the transmitting / receiving unit 12a are wirelessly connected, and the personal computer 11 transmits the digital camera 12 Is remotely controlled. In this case, for example, the digital camera 12 captures an image of the surroundings under the control of the personal computer 11, and the captured image is transmitted to the personal computer 11 and displayed.
[0007]
[Problems to be solved by the invention]
However, the conventional mobile terminal system has the following problems.
That is, in the portable terminal system shown in FIG. 11, the number of manual operations by the user until the connection between the transmission / reception unit 1a and the transmission / reception unit 2a is completed is large, and the time required until the wireless connection is completed. Since the time is about 10 seconds, there is a problem that the user may feel complicated.
[0008]
Further, in the wireless terminal remote control system shown in FIG. 12, the distance at which the digital camera 12 is remotely controlled from the personal computer 11 is about 10 m in the standard specification (output: 1 mW) and about 100 m in the optional specification (output: 100 mW). It is a distance, and there is a problem that remote control cannot be performed from a place farther than this.
[0009]
The present invention has been made in view of the above circumstances, and has a portable terminal system and a communication control method for connecting a plurality of portable terminals having short-range wireless communication means in a short time, and a short-range wireless communication. It is an object of the present invention to provide a wireless terminal remote control system and a remote control method for remotely controlling a wireless terminal having means from a long distance.
[0010]
[Means for Solving the Problems]
In order to solve the above problem, an invention according to claim 1 includes a first mobile terminal, and a second mobile terminal that communicates with the first mobile terminal via a communication line. The portable terminal has first short-range wireless communication means for wirelessly connecting to the second portable terminal within a predetermined distance range, and the second portable terminal includes the first portable terminal. And a second short-range wireless communication means for wirelessly connecting within a range of the predetermined distance, wherein the first mobile terminal transmits the first short-range wireless communication means to the first short-range wireless communication means. A connection request for wirelessly connecting the second mobile terminal to the second mobile terminal via the communication line, and disconnecting the communication via the communication line after the wireless connection is completed. And the second mobile terminal communicates with the communication line from the first mobile terminal. After the connection request has been sent through, it is characterized in that it is configured to the mobile terminal wirelessly connected first through the second short-range wireless communication means.
[0011]
According to a second aspect of the present invention, there is provided the portable terminal system according to the first aspect, wherein the first and second short-range wireless communication means are configured based on a wireless communication specification of Bluetooth® (Bluetooth). Features.
[0012]
The invention according to claim 3 relates to the portable terminal system according to claim 1 or 2, wherein the communication line is a general telephone line or the Internet.
[0013]
The invention according to claim 4 includes a first mobile terminal, and a second mobile terminal that communicates with the first mobile terminal via a communication line, wherein the first mobile terminal includes the second mobile terminal. A first short-range wireless communication means for wirelessly connecting the portable terminal with the portable terminal within a predetermined distance, wherein the second portable terminal is within a predetermined distance from the first portable terminal. The present invention relates to a communication control method for wirelessly connecting the first portable terminal to the second portable terminal, which is used in a portable terminal system having second short-range wireless communication means for wirelessly connecting the first portable terminal to the first portable terminal. A connection request sending process in which the mobile terminal sends a connection request for wirelessly connecting the second mobile terminal to the first short-range wireless communication means to the second mobile terminal via the communication line; The connection request is sent from the first mobile terminal via the communication line. Then, after the second mobile terminal completes the wireless connection in the connection process by performing a connection process of wirelessly connecting to the first mobile terminal via the second short-range wireless communication means, The first mobile terminal performs a line disconnection process for disconnecting communication via the communication line.
[0014]
According to a fifth aspect of the present invention, there is provided the communication control method according to the fourth aspect, wherein the first and second short-range wireless communication means are configured based on a wireless communication specification of Bluetooth® (Bluetooth). Features.
[0015]
The invention according to claim 6 relates to the communication control method according to claim 4 or 5, wherein the communication line is a general telephone line or the Internet.
[0016]
According to a seventh aspect of the present invention, there is provided a wireless terminal remote control comprising: a wireless terminal to be remotely controlled; and a communication terminal wirelessly connected to the wireless terminal within a predetermined distance to perform remote control. According to the system, the communication terminal is configured to be connected to a communication line, and is connected to the communication line, from the place beyond the predetermined distance to the wireless terminal via the communication line and the communication terminal A control terminal for performing remote control is provided.
[0017]
The invention according to claim 8 relates to the wireless terminal remote control system according to claim 7, wherein the wireless terminal is connected to the communication terminal within a range of the predetermined distance by a first short-range wireless communication. Means, and the communication terminal has a second short-range wireless communication means for wirelessly connecting to the wireless terminal within a range of the predetermined distance, the communication terminal from the control terminal to the communication line When a connection request is transmitted via the control terminal, the terminal is connected to the control terminal and is wirelessly connected to the first short-range wireless communication unit of the wireless terminal via the second short-range wireless communication unit. It is characterized by being.
[0018]
A ninth aspect of the present invention relates to the wireless terminal remote control system according to the eighth aspect, wherein the first and second short-range wireless communication means are configured based on a wireless communication specification of Bluetooth® (Bluetooth). It is characterized by:
[0019]
The invention according to claim 10 relates to the wireless terminal remote control system according to claims 7 to 9, wherein the communication line is a general telephone line or the Internet.
[0020]
An invention according to claim 11 is a wireless terminal remote control comprising: a wireless terminal to be remotely controlled; and a communication terminal wirelessly connected to the wireless terminal within a predetermined distance to perform remote control. The present invention relates to a remote control method for use in a system, wherein the communication terminal is connected to a communication line, and the communication is performed from a control terminal connected to the communication line. The wireless terminal is remotely controlled via a line and the communication terminal.
[0021]
The invention according to claim 12 relates to the remote control method according to claim 11, wherein the communication line is a general telephone line or the Internet.
[0022]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
First embodiment
FIG. 1 is a block diagram showing an electrical configuration of a portable terminal system according to the first embodiment of the present invention.
As shown in FIG. 1, the mobile terminal system according to this embodiment includes mobile phones 20 and 30 and a wireless base station 40. The mobile phone 20 has a transmission / reception unit 21 based on the Bluetooth® wireless communication specification. The mobile phone 20 is wirelessly connected to the mobile phone 30 within a predetermined distance range via the transmission / reception unit 21 and is connected to the mobile phone via the wireless base station 40. The communication with the telephone 30 is performed. In particular, in this embodiment, the mobile phone 20 sends a connection request for wirelessly connecting the mobile phone 30 to the transmitting / receiving unit 21 to the mobile phone 30 via the wireless base station 40, and after the wireless connection is completed. Then, the communication via the wireless base station 40 is disconnected.
[0023]
The mobile phone 30 has a transmission / reception unit 31 based on the Bluetooth® wireless communication specification. The mobile phone 30 is wirelessly connected to the mobile phone 20 within a predetermined distance range via the transmission / reception unit 31 and is also connected to the mobile phone via the wireless base station 40. It communicates with the telephone 20. In particular, in this embodiment, the mobile phone 30 wirelessly connects to the mobile phone 20 via the transmission / reception unit 31 after the connection request is transmitted from the mobile phone 20 via the wireless base station 40. The wireless base station 40 is connected to a general telephone line via a not-shown mobile communication switching center and a gateway mobile communication switching center, and communicates with the mobile phones 20 and 30 in the small zone in which the base station 40 is in charge.
[0024]
FIG. 2 is a block diagram showing an electrical configuration of the mobile phone 20 in FIG.
As shown in FIG. 2, the mobile phone 20 includes a transmitting / receiving unit 21, a Bluetooth host 22, a protocol processing unit 23, a transmitting / receiving unit 24, a memory 25, a display unit 26, an audio unit 27, It comprises a unit 28 and an MPU (microprocessor) 29. The transmission / reception unit 21 wirelessly communicates data of Bluetooth® specifications. The Bluetooth host 22 controls the transmission / reception unit 21. The protocol processing unit 23 controls a wireless communication procedure. The transmission / reception unit 24 is wirelessly connected to the wireless base station 40 and performs wireless communication. The memory 25 stores various data such as a telephone directory. The display unit 26 is composed of, for example, an LCD (liquid crystal display) and displays various data. The audio unit 27 includes a microphone that transmits and receives a user's voice and a speaker that generates a voice corresponding to various types of information. The key input unit 28 includes a plurality of keys for performing various operations. The MPU 29 controls the entire mobile phone 20.
[0025]
FIG. 3 is a block diagram showing an electrical configuration of the mobile phone 30 in FIG.
As shown in FIG. 3, the mobile phone 30 includes a transmitting / receiving unit 31, a Bluetooth host 32, a protocol processing unit 33, a transmitting / receiving unit 34, a memory 35, a display unit 36, an audio unit 37, and a key input unit. It comprises a unit 38 and an MPU 39, which have the same functions as the respective units of the mobile phone 20 shown in FIG.
[0026]
FIG. 4 is a flowchart for explaining the operation of the mobile terminal system of FIG.
The communication control method of this embodiment will be described with reference to FIG.
When the distance between the mobile phone 20 and the mobile phone 30 is within the range based on the specification of Bluetooth 仕 様, first, in step A1, the user operates the key input unit 28 of the mobile phone 20 to enable the Bluetooth wireless communication means. The telephone number of the connection partner (that is, the user who wants to wirelessly connect to the transmission / reception unit 21) is input, or the telephone directory recorded in the memory 25 is displayed on the display unit 26, and the user establishes a wireless connection from the telephone directory. Select the connection partner you want to connect. If there is no input, the process returns to step A1 to wait for input. Next, a call is made from the mobile phone 20 to the mobile phone 30 of the other party, and a connection request for wirelessly connecting the mobile phone 30 to the transmitting / receiving unit 21 is transmitted to the mobile phone 30 via the wireless base station 40 ( Step A2, connection request transmission processing). In step A3, the mobile phone 20 connects to the mobile phone 30 via the wireless base station 40 based on, for example, a TCP / IP (Transmission Control Protocol / Internet Protocol) protocol. If the telephone line including the wireless base station 40 is not opened due to the other party's mobile phone 30 during a call or the like, in step A11, for example, a message of "telephone line unavailable" is displayed on the display unit 26, and the process ends.
[0027]
After the telephone line is opened, the communication unit 21 of the mobile phone 20 is set in a standby state in which connection can be accepted (step A4). In this case, the MPU 29 sends an HCI (Host Controller Interface) command “write_scan_enable} to the Bluetooth host 22. With this command, the transmission / reception unit 21 enters a standby state. After that, in step A5, the mobile phone 20 transmits the BD_ADDR (address) of the Bluetooth mobile phone 30 equipped to the mobile phone 20 to the mobile phone 30 via the telephone line. The BD_ADDR # (address) is 6-byte data unique to the Bluetooth® specification device, and the connection request can be made by specifying the connection partner of the transmission / reception unit 21 using the BD_ADDR #. In this step A5, since the BD_ADDR # of the mobile phone 20 is transmitted via the telephone line, it is not necessary to make an inquiry from the transmission / reception unit 21 of the mobile phone 20 to the transmission / reception unit 31 of the mobile phone 30 (normal connection procedure of Bluetooth # specification) It becomes.
[0028]
Thereafter, in step A6, a PIN code (Personal Identification Number) is transmitted from the mobile phone 20 to the mobile phone 30 via the telephone line. The PIN code is authentication data required for Bluetooth specification communication, and uses a telephone number of the mobile phone 20 or a value stored in the memory 25 of the mobile phone 20 in advance. In step A7, a connection request of Bluetooth® specification is made from the mobile phone 20 to the mobile phone 30 by a user operation. In this case, the Bluetooth host 22 performs a connection process (Page) to the transmission / reception unit 31 of the mobile phone 30 via the transmission / reception unit 21. Then, the mobile phone 30 is wirelessly connected to the mobile phone 20 via the transmission / reception unit 31 (step A8, connection processing).
[0029]
In step A9, a connection authentication procedure of Bluetooth® specification is performed based on the PIN code transmitted in step A6. After the authentication is completed, a signal “Command_Complete” indicating the completion of the connection is returned from the Bluetooth host 22 to the MPU 29, and the Bluetooth wireless connection procedure is completed. After this procedure is completed, the MPU 29 of the mobile phone 20 disconnects the communication via the wireless base station 40 (step A10, line disconnection processing), and the wireless connection of the Bluetooth specification is completed. After the communication via the wireless base station 40 is disconnected, no communication fee is required. In step A8, if the distance between the mobile phone 20 and the mobile phone 30 exceeds the distance based on the Bluetooth® specification, the display unit 26 displays a message that "connection is not possible" (step A12), and step A10. Proceed to.
[0030]
As described above, in the first embodiment, since the connection procedure of the Bluetooth® specification between the mobile phone 20 and the mobile phone 30 is performed via the wireless base station 40, the user performs a key input operation in step A1. And only step A7, and the operation and time required for connection are reduced.
[0031]
Second embodiment
FIG. 5 is a block diagram showing an electrical configuration of a wireless terminal remote control system according to a second embodiment of the present invention.
As shown in FIG. 1, the wireless terminal remote control system according to this embodiment includes a communication terminal 50, a digital camera 60, a mobile phone 70, and a wireless base station 80. The communication terminal 50 includes, for example, a notebook computer, has a transmission / reception unit 51 based on Bluetooth® specifications, and wirelessly connects to the digital camera 60 via the transmission / reception unit 51 within a predetermined distance. In particular, in this embodiment, the communication terminal 50 is connected to the wireless base station 80 via the telephone line W, and when a connection request is sent from the mobile phone 70 via the wireless base station 80, the communication terminal 50 And a wireless connection with the transmission / reception unit 61 of the digital camera 60 via the transmission / reception unit 51.
[0032]
The digital camera 60 has a transmitting / receiving unit 61 based on Bluetooth® specifications, and wirelessly connects to the communication terminal 50 via the transmitting / receiving unit 61 within a predetermined distance. The mobile phone 70 is connected to the wireless base station 80 and remotely controls the digital camera 60 via the wireless base station 80 and the communication terminal 50. The wireless base station 80 is connected to a general telephone line via a not-shown mobile communication switching center and a gateway mobile communication switching office, and communicates with the mobile phone 70 in the small zone in which it is responsible.
[0033]
FIG. 6 is a block diagram showing an electrical configuration of the communication terminal 50 in FIG.
As shown in FIG. 6, the communication terminal 50 includes a transmitting / receiving unit 51, a Bluetooth host 52, a protocol processing unit 53, a telephone line connection unit 54, a memory 55, a display unit 56, an audio unit 57, It is composed of a key input unit 58 and an MPU 59. The transmitting / receiving unit 51 wirelessly communicates data of Bluetooth® specifications. The Bluetooth host 52 controls the transmission / reception unit 51. The protocol processing unit 53 controls a communication procedure of the telephone line connection unit 54. The telephone line connection unit 54 is connected to the wireless base station 80 via the telephone line W, and performs communication based on control by the protocol processing unit 53. The memory 55 stores various data such as a telephone directory. The display unit 56 is composed of, for example, an LCD and displays various data. The audio unit 57 is configured by a microphone that transmits and receives a user's voice and a speaker that generates a voice corresponding to various information. The key input unit 58 includes a plurality of keys for performing various operations. The MPU 59 controls the entire communication terminal 50.
[0034]
FIG. 7 is a block diagram showing an electrical configuration of the digital camera 60 in FIG. As shown in FIG. 7, the digital camera 60 includes a transmission / reception unit 61, a Bluetooth host 62, an imaging unit 63, and an MPU 64. The transmission / reception unit 61 wirelessly communicates data of Bluetooth® specifications. The Bluetooth host 62 controls the transmission / reception unit 61. The imaging unit 63 is configured by, for example, a CCD (Charge Coupled Device), and captures an image. The MPU 64 controls the entire digital camera 60.
[0035]
FIG. 8 is a block diagram showing an electrical configuration of the mobile phone 70 in FIG.
As shown in FIG. 8, the mobile phone 70 includes a protocol processing unit 71, a telephone line connection unit 72, a memory 73, a display unit 74, an audio unit 75, a key input unit 76, and an MPU 77. Have been. The protocol processing unit 71 controls a wireless communication procedure of the transmission / reception unit 72. The transmitting / receiving unit 72 is wirelessly connected to the wireless base station 80 and performs wireless communication. The memory 73 stores various data such as a telephone directory. The display unit 74 is composed of, for example, an LCD, and displays various data. The audio unit 75 includes a microphone that transmits and receives a voice of the user and a speaker that generates audio corresponding to various types of information. The key input unit 76 includes a plurality of keys for performing various operations. The MPU 77 controls the entire mobile phone 70.
[0036]
FIG. 9 is a sequence diagram for explaining the operation of the wireless terminal remote control system in FIG. 5, and FIG. 10 is a diagram showing an example of a frame format for transmitting a command of the Bluetooth® specification.
With reference to these figures, a remote control method of this embodiment will be described.
When requesting a connection from the mobile phone 70 to the communication terminal 50, as shown in FIG. 9, first, the MPU 77 of the mobile phone 70 issues a line connection request to the wireless base station 80 for line connection (step S1). S01). The wireless base station 80 receives the request and issues a line connection request to the communication terminal 50 (step S02). In response to this, the communication terminal 50 returns a line connection response to the wireless base station 80 (step S03), and the wireless base station 80 returns a line connection response to the mobile phone 70 that has requested connection (step S04). . With the above procedure, the line connection between the mobile phone 70 and the communication terminal 50 is completed.
[0037]
After the line connection is completed, communication means specified by TCP / IP (Transmission Control Protocol / Internet Protocol) is established in order to enable packet communication between the mobile phone 70 and the communication terminal 50. In this case, the MPU 77 of the mobile phone 70 issues a TCP / IP connection request to the wireless base station 80 (Step S05). The wireless base station 80 receives the request and issues a TCP / IP connection request to the communication terminal 50 (step S06). In response to this, the communication terminal 50 returns a TCP / IP connection response to the wireless base station 80 (step S07), and the wireless base station 80 returns a TCP / IP connection response to the mobile phone 70 of the connection request source. (Step S08). With the above procedure, the TCP / IP connection between the mobile phone 70 and the communication terminal 50 is completed.
[0038]
Packet transmission / reception is performed between the mobile phone 70 and the communication terminal 50 to which the TCP / IP connection has been completed via the telephone line (the radio base station 80 or the like). The connection of the Bluetooth® specification is required for the unit 61. In this case, the MPU 77 of the mobile phone 70 transmits a remote command to the communication terminal 50 via the wireless base station 80 (Steps S11 and S12). The remote command includes a command to start up a Bluetooth® specification for performing a Bluetooth® specification connection, an address (BD_ADDR #) unique to a Bluetooth® specification device, and a PIN code (Personal Identification Number, Bluetooth communication required for connection authentication). Authentication data, only the user knows).
[0039]
For example, as shown in FIG. 10, the remote command includes a start flag, an address part, a control part, a protocol, an information part, an FCS (frame check sequence), and an end flag. The start flag has a fixed bit pattern of “01111110” and indicates the start of a frame and is used for synchronizing the frame. The address portion is composed of 8 bits (for example, “11111111”), and indicates the destination of the communication partner or the address of the own device. The control unit indicates a command for instructing a communication partner to transfer data or the like and a type of a response that is a response to the command. The protocol indicates, for example, a TCP / IP protocol.
[0040]
The information section is a section containing information to be transmitted, and there is no restriction on the bit configuration of data, control information, and the like. The information section includes a Bluetooth @ control header, a content section, and a data section. The Bluetooth control header indicates information for identifying that control of the Bluetooth specification is performed. The content part represents the content of the data part. For example,
“0”: instruction command, “1”: BD_ADDR, “2”: PIN code
It is defined as follows. The data section represents data corresponding to these contents. The FCS is composed of 16 bits (2 bytes), and is used for error detection for confirming whether or not the contents from the address section to the information section have been correctly transmitted. The end flag is composed of a fixed bit pattern of “01111111” and indicates the end of a frame and is used for synchronizing the frame.
[0041]
Based on the remote command, a connection command is transmitted from the Bluetooth @ host 52 of the communication terminal 50 to the transmission / reception unit 51 (step S13). The transmission / reception unit 51 receives this and makes an inquiry (Inquiry #) to the transmission / reception unit 61 of the digital camera 60 (Step S14). This inquiry (Inquiry @) is a message including a key for wireless connection and the like, and is transmitted to the Bluetooth @ host 62 via the transmission / reception unit 61 of the digital camera 60.
[0042]
In response to this, the Bluetooth host 62 makes a response to the inquiry (Inquiry) via the transmission / reception unit 61 (step S15). In response to this, the communication terminal 50 issues a command to connect (Page) to the transmission / reception unit 61 of the digital camera 60 to the Bluetooth host 52 (step S16). The Bluetooth host 62 of the digital camera 60 receives this and returns a response to the transmission / reception unit 51 of the communication terminal 50 via the transmission / reception unit 61 (step S17). The communication terminal 50 sends an authentication command to the transmission / reception unit 61 of the digital camera 60 via the transmission / reception unit 51, and performs authentication using the PIN code received in steps S11 and S12 (step S18). The digital camera 60 responds to the authentication to the transmission / reception unit 51 of the communication terminal 50 (step S19), and returns a Bluetooth specification connection response to the communication terminal 50 (step S20). Then, the connection of the Bluetooth® specification is completed.
[0043]
In response to this, the MPU 59 of the communication terminal 50 returns a connection response to the remote command in step S11 to the wireless base station 80 (step S21). The wireless base station 80 receives this and transmits a connection response to the mobile phone 70 (step S22). After these procedures are completed, communication between the mobile phone 70 and the digital camera 60 is opened, and the mobile phone 70 controls the digital camera 60 (step S23), and the digital camera 60 captures an image. The image data is transmitted to the mobile phone 70 (step S24).
[0044]
When the mobile phone 70 requests the communication terminal 50 to disconnect the line, the mobile phone 70 issues a line disconnection request to the wireless base station 80 (step S31). The wireless base station 80 receives this and issues a line disconnection request to the communication terminal 50 of the connection partner (step S32). In this case, the MPU 59 of the communication terminal 50 issues a disconnection request to the Bluetooth host 52 (step S33), and sends the request to the Bluetooth host 62 via the transmission / reception unit 51 of the communication terminal 50 and the transmission / reception unit 61 of the digital camera 60. A disconnection request is made (step S34). The Bluetooth host 62 of the digital camera 60 receives this and returns a disconnection response to the Bluetooth host 52 via the transmission / reception unit 61 and the transmission / reception unit 51 of the communication terminal 50 (Step S35), and the Bluetooth host 52 receives the disconnection response. Then, a disconnection response is returned to the MPU 59 of the communication terminal 50 (step S36). The communication terminal 50 returns a response to the line disconnection request of step S32 to the wireless base station 80 (step S37), and the wireless base station 80 returns a line disconnection response to the mobile phone 70 of the connection request source (step S37). S38). With the above procedure, the line disconnection between the mobile phone 70 and the communication terminal 50 is completed.
[0045]
As described above, in the second embodiment, the communication terminal 50 is connected to the wireless base station 80 via the telephone line W, and the digital camera 60 is remotely controlled via the wireless base station 80 and the communication terminal 50. Is provided, the digital camera 60 can be remotely controlled from a place beyond the distance of the Bluetooth® specification.
[0046]
As described above, the embodiments of the present invention have been described in detail with reference to the drawings. However, the specific configuration is not limited to the embodiments, and even if there is a change in the design without departing from the gist of the present invention, the present invention is not limited to the embodiments. include.
For example, the mobile phones 20 and 30 in FIG. 1 may be PDA (Personal Digital Assistants) having the function of a mobile phone. Steps A4, A5, and A6 in FIG. 4 are merely examples, and may be performed in any order. Further, the wireless base station 40 in FIG. 1 and the wireless base station 80 in FIG. 5 may be connected to the Internet. Alternatively, a personal computer may be connected to the multifunctional connector of the mobile phone 70, and the digital camera 60 may be remotely operated from the personal computer. Further, the digital camera 60 in FIG. 5 may be any one as long as it can be subjected to remote control of Bluetooth® specifications.
[0047]
【The invention's effect】
As described above, according to the configuration of the present invention, the wireless connection between the first short-range wireless communication unit of the first mobile terminal and the second short-range wireless communication unit of the second mobile terminal is established. Since the procedure is performed via the communication line, the operation and time required for wireless connection between the first short-range wireless communication unit and the second short-range wireless communication unit can be reduced.
[0048]
Further, since the communication terminal is connected to the communication line and the control terminal for remotely controlling the wireless terminal via the communication line and the communication terminal is provided, the control terminal is provided from a place beyond a predetermined distance. Can be remotely controlled.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an electrical configuration of a portable terminal system according to a first embodiment of the present invention.
FIG. 2 is a block diagram showing an electrical configuration of the mobile phone 20 in FIG.
FIG. 3 is a block diagram showing an electrical configuration of the mobile phone 30 in FIG.
FIG. 4 is a flowchart for explaining the operation of the mobile terminal system of FIG. 1;
FIG. 5 is a block diagram showing an electrical configuration of a wireless terminal remote control system according to a second embodiment of the present invention.
FIG. 6 is a block diagram showing an electrical configuration of a communication terminal 50 in FIG.
FIG. 7 is a block diagram showing an electrical configuration of the digital camera 60 in FIG.
8 is a block diagram showing an electrical configuration of the mobile phone 70 in FIG.
FIG. 9 is a sequence diagram for explaining an operation of the wireless terminal remote control system of FIG. 5;
FIG. 10 is a diagram showing an example of a frame format for transmitting a command of Bluetooth® specifications.
FIG. 11 is a configuration diagram of a conventional portable terminal system.
FIG. 12 is a configuration diagram of a conventional wireless terminal remote control system.
[Explanation of symbols]
20, 30 mobile phone (mobile terminal)
21, 31, 51, 61} transmitting / receiving unit (short-range wireless communication means)
22, 32, 52, 62 {Bluetooth} host (short-range wireless communication means)
23, 33, 53, 71 Protocol processing unit
24,34 transceiver
25, 35, 55, 73 memory
26, 36, 56, 74 display unit
27, 37, 57, 75 Audio part
28, 38, 58, 76 key input unit
29, 39, 59, 64, 77 MPU (microprocessor)
40,80 wireless base station (communication line)
50 communication terminal
54,72 phone line connection
60 digital camera (wireless terminal)
63mm imaging unit
70 mobile phone (control terminal)

Claims (12)

A first mobile terminal, and a second mobile terminal that communicates with the first mobile terminal via a communication line;
The first mobile terminal has a first short-range wireless communication unit for wirelessly connecting to the second mobile terminal within a predetermined distance range,
The second mobile terminal is a mobile terminal system having a second short-range wireless communication unit for wirelessly connecting to the first mobile terminal within a range of the predetermined distance,
The first mobile terminal includes:
A connection request for wirelessly connecting the second portable terminal to the first short-range wireless communication means is sent to the second portable terminal via the communication line, and after the wireless connection is completed, It is configured to disconnect communication via the communication line, and
The second mobile terminal,
After the connection request is transmitted from the first mobile terminal via the communication line, the first mobile terminal is configured to wirelessly connect to the first mobile terminal via the second short-range wireless communication means. A mobile terminal system characterized by the following. The first and second short-range wireless communication means include:
2. The portable terminal system according to claim 1, wherein the portable terminal system is configured based on a Bluetooth (Bluetooth) wireless communication specification. The communication line,
3. The portable terminal system according to claim 1, wherein the portable terminal system is a general telephone line or the Internet. A first mobile terminal, and a second mobile terminal that communicates with the first mobile terminal via a communication line;
The first mobile terminal has a first short-range wireless communication unit for wirelessly connecting to the second mobile terminal within a predetermined distance range,
The second mobile terminal is used in a mobile terminal system having a second short-range wireless communication unit for wirelessly connecting to the first mobile terminal within a range of the predetermined distance; A communication control method for wirelessly connecting a terminal to the second mobile terminal,
A connection request in which the first mobile terminal sends a connection request for wirelessly connecting the second mobile terminal to the first short-range wireless communication means to the second mobile terminal via the communication line. Sending process,
After the connection request is transmitted from the first mobile terminal via the communication line, the second mobile terminal communicates with the first mobile terminal wirelessly via the second short-range wireless communication means. Connection process to connect,
A communication control method, wherein after the wireless connection in the connection process is completed, the first mobile terminal performs a line disconnection process for disconnecting communication via the communication line. The first and second short-range wireless communication means include:
The communication control method according to claim 4, wherein the communication control method is configured based on a wireless communication specification of Bluetooth (Bluetooth). The communication line,
6. The communication control method according to claim 4, wherein the communication control method is a general telephone line or the Internet. A wireless terminal remote control system comprising a wireless terminal to be remotely controlled, and a communication terminal that is wirelessly connected to the wireless terminal within a predetermined distance and performs remote control,
The communication terminal is configured to be connected to a communication line, and
A wireless terminal remote control, wherein a control terminal connected to the communication line and remotely controlling the wireless terminal from a place exceeding the predetermined distance via the communication line and the communication terminal is provided. system. The wireless terminal,
A first short-range wireless communication unit for wirelessly connecting the communication terminal within the range of the predetermined distance; and
The communication terminal,
A second short-range wireless communication means for wirelessly connecting to the wireless terminal within a range of the predetermined distance, wherein when a connection request is transmitted from the control terminal via the communication line, the control is performed. 8. A wireless communication terminal, wherein the wireless terminal is connected to the first terminal and the first short-range wireless communication means of the wireless terminal via the second short-range wireless communication means. Wireless terminal remote control system. The first and second short-range wireless communication means include:
The wireless terminal remote control system according to claim 8, wherein the wireless terminal remote control system is configured based on a wireless communication specification of Bluetooth (Bluetooth). The communication line,
The wireless terminal remote control system according to claim 7, wherein the wireless terminal remote control system is a general telephone line or the Internet. Used in a wireless terminal remote control system comprising a wireless terminal to be remotely controlled and a communication terminal wirelessly connected to the wireless terminal within a predetermined distance and performing remote control, the predetermined A remote control method for remotely controlling the wireless terminal from a place beyond a distance,
A remote control method comprising: connecting the communication terminal to a communication line; and performing remote control on the wireless terminal from the control terminal connected to the communication line via the communication line and the communication terminal. The communication line,
The remote control method according to claim 11, wherein the remote control method is a general telephone line or the Internet.

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