JP2010011081A - Data exchange system, handy terminal, data exchange method, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a data exchange system which can carry out a short-distance communication between devices without requiring a complicated operation. <P>SOLUTION: This data exchange system 1 is one in which a handy terminal 100 exchanges data with a computer 200 by the short-distance communication. The handy terminal includes: a GPS module 130 for receiving positional information from a GPS satellite 10; and a short-distance communication module 120 for carrying out the short-distance communication with the computer, and also has an address data comparing part 152 for comparing first positional information which has in advance been registered with second positional information received from the GPS module. The handy terminal and computer have short-distance communication parts 153, 221 for using the short-distance communication module to carry out the short-distance communication between the handy terminal and computer when the address data comparing part decides that the first positional information generally coincides with the second positional information. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to short-range communication between devices, and more particularly to synchronization of information between devices using such short-range communication.

  Bluetooth (registered trademark) is one of short-range wireless communication technologies used for connection between devices of several meters in portable information devices and the like. For example, data can be exchanged between a personal computer and a mobile phone or PDA (Personal Digital Assistant).

  Various profiles are defined in Bluetooth technology. Among them, the synchronization profile (Synchronization Profile) is used to synchronize PIM (Personal Information Manager) items such as calendar information and address information between Bluetooth-compatible devices. belongs to. Non-Patent Documents 1 and 2 describe this synchronization profile. The data synchronization here refers to a process of comparing target data and aligning the contents on the new side if there is a difference between the two.

  Japanese Patent Application Laid-Open No. 2004-228561 describes a technology that uses a GPS (Global Positioning System) to detect that a mobile terminal has approached an automobile and shifts to a hands-free call mode. Japanese Patent Application Laid-Open No. 2004-259561 describes a technique of switching between infrared communication and wireless communication by determining whether or not the mobile terminal has approached a device capable of infrared communication using GPS.

JP 2006-287644 A JP 2007-212466 A BluetoothSIG, "SYNC: Synchronization Profile", [online], Bluetooth SIG, [Search June 24, 2008], Internet <URL: http://japanese.bluetooth.com/Bluetooth/Technology/Works /SYNC.htm> BluetoothSIG, “SYNCHRONIZATIONPROFILE”, [online], Bluetooth SIG, [Search June 24, 2008], Internet <URL: http://japanese.bluetooth.com/NR/rdonlyres/8EE6515E-5D36-458D-9BA6- A6B3ED9EAA11 / 987 / SYNCH_SPEC_V12.pdf>

  In order to synchronize information between Bluetooth-enabled devices using a synchronization profile, in many cases, the Bluetooth function is activated, a connection is established, and data to be synchronized is selected. Such complicated operations are involved. Incidentally, the above-mentioned Patent Documents 1 and 2 detect that the mobile terminal has approached another device by GPS, but do not solve the problem that the operation of synchronizing information is complicated.

  An object of the present invention is to provide a data exchange system, a portable terminal, a data exchange method, and a program that do not require such a complicated operation and can perform near field communication between devices.

  In order to achieve the above object, a data exchange system according to the present invention is a data exchange system in which a portable terminal and a computer exchange data by short-range communication, and the portable terminal receives position information from a GPS satellite. Address data comparison for comparing the first location information registered in advance with the second location information received from the GPS module, and a GPS module for performing near field communication with the computer. And the portable data terminal and the computer use the short-range communication module when the address data comparison unit determines that the first and second positional information are approximately the same. It has a short distance communication part which performs short distance communication between.

  In order to achieve the above object, a mobile terminal according to the present invention is a mobile terminal that exchanges data by short-range communication with a computer, and a short distance between a GPS module that receives position information from a GPS satellite and the computer. The short-range communication module that performs communication, the first location information registered in advance, and the address data comparison unit that compares the second location information received from the GPS module, and the address data comparison unit include the first and second address data comparison units. A short-range communication unit that performs short-range communication with a computer using a short-range communication module when it is determined that the position information of the two is substantially the same.

  In order to achieve the above object, a data exchange method according to the present invention is a data exchange method in which a mobile terminal and a computer exchange data by short-range communication, and the mobile terminal receives position information from a GPS satellite. Then, the mobile terminal compares the first position information registered in advance with the second position information received from the GPS module to determine whether or not they are substantially matched, and the first and second positions When it is determined that the information roughly matches, short-range communication is performed between the portable terminal and the computer.

  In order to achieve the above object, a data exchange program according to the present invention is registered in advance with a process of receiving position information from a GPS satellite in a computer that controls a portable terminal that exchanges data with a computer through short-range communication. The first position information and the second position information received from the GPS module are compared to determine whether or not they are approximately the same, and the first and second position information are approximately the same. If it is determined, the process of performing near field communication between the portable terminal and the computer is executed.

  Since the present invention is configured to perform near field communication after it is determined that the mobile terminal has approached the computer using GPS, it is possible to perform near field communication between devices without requiring a complicated operation. It is possible to provide an excellent data exchange system, portable terminal, data exchange method and program that can be performed.

  FIG. 1 is a conceptual diagram showing a configuration of a data exchange system 1 according to an embodiment of the present invention. The data exchange system 1 includes a mobile phone 100 and a personal computer 200 installed at a user's home. Both the mobile phone 100 and the personal computer 200 can perform communication based on Bluetooth, and can perform data communication with each other. Furthermore, the mobile phone 100 can be connected to the address server 50 by normal data communication, and can receive position information from the GPS satellite 10.

  FIG. 2 is a functional block diagram showing an internal configuration of the mobile phone 100 shown in FIG. The mobile phone 100 includes a control unit 101, a storage unit 102, a normal communication module 110, a normal communication antenna 111, a Bluetooth communication module 120, a Bluetooth antenna 121, a GPS module 130, and a GPS antenna 131.

  The control unit 101 is a main body that executes application programs including a CPU, a RAM, an OS, and the like. The storage unit 102 is a non-volatile storage device such as a hard disk or a flash memory, and stores target data 103 that is data to be synchronized in the operations described below.

  The normal communication module 110 can perform communication related to normal calls and data communication by controlling the normal communication antenna 111. The Bluetooth communication module 120 can communicate with other Bluetooth-compliant devices by controlling the Bluetooth antenna 121. The GPS module 130 can receive position information from the GPS satellite 10 by controlling the GPS antenna 131.

  FIG. 3 is a functional block diagram showing an internal configuration of the personal computer 200 shown in FIG. The personal computer 200 includes a control unit 201, a storage unit 202, a Bluetooth communication module 210, and a Bluetooth antenna 211. The control unit 201 is a main body that executes a program including a CPU, a RAM, an OS, and the like. The storage unit 202 stores target data 203 that is data to be exchanged. The Bluetooth communication module 210 can control the Bluetooth antenna 211 to communicate with other Bluetooth-compliant devices.

  Further, the mobile phone 100 can communicate with the address server 50 via the normal communication module 110. The address server 50 receives the address data in a format (hereinafter referred to as a town name / address format) such as “XX prefecture XX city XX town XX town” received from the mobile phone 100 as “East longitude XX”. It is converted into a format such as “degree XX minute XX second, north latitude XX degree XX minute XX second” (hereinafter referred to as longitude / latitude format) and returned to the mobile phone 100.

  Now, in order to synchronize data between the target data 103 of the mobile phone 100 and the target data 203 of the personal computer 200, the mobile phone 100 is trying to communicate with the personal computer 200 via Bluetooth. For this process, the control unit 101 executes the data synchronization application 150.

  Returning to FIG. 2, the data synchronization application 150 includes an address data conversion unit 151, an address data comparison unit 152, a Bluetooth communication unit 153, and a data synchronization unit 154. The address data conversion unit 151 transmits the street name / address format address to the address server 50 via the normal communication module 110, and receives longitude / latitude address data from the address server 50 via the normal communication module 110.

  The address data comparison unit 152 receives position information from the GPS satellite 10 via the GPS module 130 and compares it with address data in longitude / latitude format received by the address data conversion unit 151 from the address server 50. The Bluetooth communication unit 153 activates the Bluetooth communication module 120 to communicate with other Bluetooth compliant devices.

  The data synchronization unit 154 performs data synchronization processing by comparing the target data acquired from other devices with its own target data based on a known synchronization profile. In the Bluetooth communication unit 153, the personal computer 200 is registered in advance as a communication partner, and the target data 103 is registered as a target for synchronization.

  Returning to FIG. 3, the data synchronization application 220 executed by the control unit 201 also exists on the personal computer 200 side. The data synchronization application 220 includes a Bluetooth communication unit 221 and a data synchronization unit 222.

  The Bluetooth communication unit 221 activates the Bluetooth communication module 210 to communicate with other Bluetooth compliant devices. Based on a known synchronization profile, the data synchronization unit 222 compares a profile acquired from another device with its own profile, and synchronizes data. In the Bluetooth communication unit 221, the mobile phone 100 is registered in advance as a communication partner, and target data 203 is registered as a target for synchronization.

  FIG. 4 is a flowchart showing a process performed by mobile phone 100 and personal computer 200 shown in FIG. 1 to synchronize target data 103 and 203. First, the user inputs the home address where the personal computer 200 is installed on the mobile phone 100 (step S301). At that time, the control unit 101 transmits the address of the town name / address format input by the user to the address server 50 via the normal communication module 110, and the location information (hereinafter referred to as the first location) in the longitude / latitude format from the address server 50. Information) (step S302).

  Then, the control unit 101 receives position information (hereinafter referred to as second position information) from the GPS satellite 10 via the GPS module 130 (step S303). The second position information is in a longitude / latitude format. The control unit 101 compares the first and second position information described above (step S304). If the first and second position information are different, the process returns to step S303 after an arbitrary waiting time elapses, and the second position information is acquired again (step S305).

  If the first and second position information match within a predetermined error range (within a range in which Bluetooth communication is possible with the personal computer 200), the mobile phone 100 is installed with the personal computer 200. Since it can be determined that the user is in the home, the Bluetooth communication unit 153 determines whether the Bluetooth communication module 120 is currently activated (step S306). If the Bluetooth communication module 120 is activated, the process proceeds to step S308 as it is. If not activated, a process for activating the Bluetooth communication module 120 is performed (step S307), and then the process proceeds to step S308.

  The Bluetooth communication unit 153 establishes a connection with the personal computer 200 that is a communication partner registered in the Bluetooth communication module 120 in advance (step S308), and the data synchronization unit 154 performs data based on a known synchronization profile (Synchronization Profile). The synchronization process is started (step S309).

  In response to step S308, the Bluetooth communication unit 221 also activates the Bluetooth communication module 210 on the personal computer 200 side, and establishes connection with the mobile phone 100 that is a communication partner registered in the Bluetooth communication module 210 in advance. In response to step S309, the data synchronization unit 222 synchronizes data based on a known synchronization profile (step S352).

  As described above, in the operation described above, the user does not perform any operation (except for the input of the address in step S301). However, it is performed only when the user holding the mobile phone 100 approaches the personal computer 200. Therefore, the complicated operation as described in the column of the problem to be solved by the invention is not required in this embodiment.

  In the embodiment described above, data synchronization is performed using a synchronization profile known in Bluetooth technology. However, other communication methods such as IEEE802 for wireless LAN are used for short-distance communication. .11 series, wireless USB, IrDA for infrared communication, etc. may be used. Further, data exchange targets are not limited to PIM data items, and are not limited to data synchronization.

  Furthermore, instead of the mobile phone 100, for example, a PDA can be used, and the place where the personal computer 200 is installed may not be “home”, but may be a workplace, for example. Instead of using the address server 50, the mobile phone 100 may have a function of converting a street name / address format address information into position information in a longitude / latitude format.

  Although the present invention has been described with the specific embodiments shown in the drawings, the present invention is not limited to the embodiments shown in the drawings, and is known so far as long as the effects of the present invention are achieved. It goes without saying that any configuration can be adopted.

  It can be used to synchronize information between devices using near field communication.

It is a conceptual diagram showing the structure of the data exchange system which concerns on embodiment of this invention. It is a functional block diagram which shows the structure inside the mobile telephone shown in FIG. FIG. 2 is a functional block diagram showing an internal configuration of the personal computer shown in FIG. 1. It is a flowchart showing the process which the mobile phone and personal computer shown in FIG. 1 perform in order to synchronize object data.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Data exchange system 10 GPS satellite 50 Address server 100 Mobile phone 101 Control part 102 Memory | storage part 103 Target data 110 Normal communication module 111 Normal communication antenna 120 Bluetooth communication module 121 Bluetooth antenna 130 GPS module 131 GPS antenna 150 Data synchronization application 151 Address data conversion unit 152 Address data comparison unit 153 Bluetooth communication unit 154 Data synchronization unit 200 Personal computer 201 Control unit 202 Storage unit 203 Target data 210 Bluetooth communication module 211 Bluetooth antenna 220 Data synchronization application 221 Bluetooth communication unit 222 Data synchronization unit

Claims (7)

A data exchange system in which a portable terminal and a computer exchange data by short-range communication,
The portable terminal includes a GPS module that receives position information from a GPS satellite, and a short-range communication module that performs short-range communication with the computer. The first position information registered in advance and the GPS module An address data comparison unit that compares the second location information received from
When the portable data terminal and the computer determine that the first and second location information are substantially matched by the address data comparison unit, the portable data terminal and the computer are used using the short-range communication module. A data exchange system characterized by having a short-range communication unit that performs short-range communication with each other.   The data exchange system according to claim 1, wherein the near field communication conforms to Bluetooth which is a communication standard.   The data exchange system according to claim 2, wherein the portable terminal and the computer have a data synchronization unit that synchronizes target data using a synchronization profile that complies with the Bluetooth. Receiving address data in a street name / address format from the mobile terminal, comprising an address server for converting the address data into a longitude / latitude format and returning the address data to the mobile terminal;
The portable terminal transmits the address data in the street name / address format input by the user to the address server, and converts the address data in longitude / latitude format received from the address server into the first location information. The data exchange system according to claim 2, further comprising a section. A portable terminal that exchanges data with a computer through short-range communication,
A GPS module for receiving position information from GPS satellites;
A near field communication module for performing near field communication with the computer;
An address data comparison unit that compares the first location information registered in advance with the second location information received from the GPS module;
A short-range communication unit that performs short-range communication with the computer using the short-range communication module when the address data comparison unit determines that the first and second position information substantially match; A portable terminal characterized by comprising: A data exchange method in which a portable terminal and a computer exchange data by short-range communication,
The portable terminal receives position information from a GPS satellite;
The mobile terminal compares the first location information registered in advance with the second location information received from the GPS module to determine whether or not they are approximately the same,
A data exchange method, characterized in that, when it is determined that the first and second position information substantially match, the portable terminal and the computer perform short-range communication between each other. To a computer that controls a portable terminal that exchanges data by short-range communication with a computer,
A process of receiving position information from a GPS satellite;
A process of comparing the first position information registered in advance with the second position information received from the GPS module to determine whether or not they substantially match;
A data exchange program that, when it is determined that the first and second position information substantially match, performs a process of performing short-range communication between the portable terminal and the computer .

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