JP2011048523A - Portable radio terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a portable radio terminal for achieving short-range radio communication which is high in security for preventing data transmission to any unintended other party. <P>SOLUTION: A control part 140 determines matching of first fingerprint data transmitted by the other side terminal 100b with second fingerprint data detected by a fingerprint detection part 160b, and stored in a storage part 130, and when those pieces of fingerprint data are matched, the control part 140 permits prescribed data transmission by short-range radio communication, and when those pieces of fingerprint data are not matched, does not permit the prescribed data transmission. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a portable wireless terminal having a short-range wireless communication function with a fingerprint authentication function.

  2. Description of the Related Art In recent years, short-range wireless communication has been used when transmitting and receiving data such as a telephone directory and one's own profile between portable wireless terminals such as cellular phones. Examples of short-range wireless communication include infrared rays, magnetic field communication, and Bluetooth (registered trademark). Since these short-range wireless communications can exchange data directly between portable wireless terminals, they are easy and are used by many people. Patent Document 1 discloses infrared communication as an example of such short-range wireless communication.

  On the other hand, there is a biometric information authentication method for identifying each individual from characteristic biometric information as one of the current personal authentication methods, and examples include fingerprint authentication, retinal authentication, and vein authentication. Patent Document 2 discloses a fingerprint reading card device capable of detecting a fingerprint and transmitting the fingerprint data by wireless communication.

JP 2007-221489 A JP 2001-283166 A

  However, in the configuration of Patent Document 1, the sender intended when a malicious third party has a portable wireless terminal in a state of data reception preparation in the short-range wireless communication in the vicinity of the transmitting terminal. Data transmission to a third party other than the receiver cannot be prevented. In the configuration of Patent Document 2, only detected fingerprint data is transmitted by wireless communication, and the security of data communication is not enhanced by the fingerprint authentication.

  In order to solve the above-described problems, an object of the present invention is to provide a portable wireless terminal that realizes short-range wireless communication with high security that prevents data transmission to an unintended partner.

  In order to achieve the above object, a portable wireless terminal of the present invention includes a fingerprint detection unit that detects a fingerprint, a short-range wireless communication unit that performs short-range wireless communication, and a memory that stores the detected fingerprint and predetermined data. And a control unit that controls transmission of the predetermined data stored in the storage unit by the short-range wireless communication unit, and the control unit is configured to start communication after the short-range wireless communication unit starts. Receiving the first fingerprint data from the counterpart terminal, and determining whether or not the second fingerprint data detected by the fingerprint detection unit and the second fingerprint data stored in the storage unit match the first fingerprint data If they match, the transmission of the predetermined data by the short-range wireless communication unit is permitted, and if they do not match, the transmission of the predetermined data is not permitted.

  Preferably, the control unit accumulates in the storage unit the number of times the first fingerprint data and the second fingerprint data do not match after the communication by the short-range wireless communication unit is started. If the number of mismatches exceeds a predetermined number, control is performed to end communication by the short-range wireless communication unit.

  Preferably, the control unit deletes the second fingerprint data stored in the storage unit when the first fingerprint data and the second fingerprint data match in the determination. .

  The portable wireless terminal according to the present invention further includes a touch sensor superimposed on the display unit, wherein the fingerprint detection unit is a part of the display unit on which the touch sensor is superimposed or an outer edge of the display unit. When the fingerprint is detected by the fingerprint detection unit, following the movement determination that determines that the touch is detected by the touch sensor and the detection position is moved, the control unit is located in part. The predetermined communication is started.

Preferably, the display unit displays a symbol image corresponding to the predetermined data,
The controller starts detecting the fingerprint and performing the predetermined communication when the movement determination occurs after the touch sensor detects a contact in an area superimposed on the symbol image.

  Preferably, the control unit is configured such that a movement speed of the detection position following the detection of the contact in the movement determination is a predetermined speed or more, or a movement of the detection position following the detection of the contact is the touch. It is determined that the detection position is moved by continuing to the detectable end of the sensor.

  Preferably, when the communication is started by the short-range wireless communication unit, the control unit changes the lighting control of the backlight of the display unit from a state before the start of the communication.

In the portable wireless terminal of the present invention, the short-range wireless communication unit performs either infrared communication or visible light communication.
In the portable wireless terminal of the present invention, the portable wireless terminal further includes a long-range wireless communication unit capable of performing communication over a longer distance than the short-range wireless communication unit, and the predetermined data is data acquired by the long-range wireless communication unit It is.

  The portable wireless terminal of the present invention further includes a long-distance wireless communication unit capable of communication over a longer distance than the short-range wireless communication unit, and the predetermined data is received by the long-distance wireless communication unit. Address information of the own terminal.

  In order to solve the above problem, another typical configuration of the portable wireless terminal according to the present invention is a fingerprint detection unit that detects a fingerprint, a communication unit that performs short-range wireless communication, and a detection that is detected by the fingerprint detection unit. A storage unit for storing a fingerprint; and a control unit. When the communication unit starts communication, the control unit sets the fingerprint detection unit in a detectable state, and the fingerprint detection unit detects the fingerprint. Then, the fingerprint data of the fingerprint is stored in the storage unit, transmitted to the counterpart terminal by the communication unit, and the fingerprint data stored in the storage unit is deleted after the transmission, while the fingerprint When the predetermined data is received in the communication after the data is transmitted, the predetermined data is stored in the storage unit.

  A transmission control method according to a second aspect of the invention includes a first portable terminal having a first communication unit that performs short-range wireless communication and a first fingerprint detection unit, a second communication unit that performs short-range wireless communication, and a second communication unit. A data transmission control method for transmitting data to and from a second portable terminal having a fingerprint detection unit, wherein the first fingerprint detection unit detects transmission fingerprint data, and the second step A second step of detecting the fingerprint data on the receiving side by the fingerprint detection unit; a third step of starting communication connection between the first communication unit and the second communication unit; and the second mobile phone by the communication. A fourth step of transmitting the reception-side fingerprint data from the terminal to the first portable terminal, and a fifth step of comparing the reception-side fingerprint data received by the first portable terminal with the transmission-side fingerprint data. A match is determined in step and the fifth step. The sixth step of permitting transmission of the predetermined data in the first portable terminal to the second portable terminal by the first communication unit, and not permitting transmission if it is not determined to match, and the second portable terminal A data transmission control method comprising: a seventh step of storing the predetermined data when it is received.

  ADVANTAGE OF THE INVENTION According to this invention, the portable radio | wireless terminal which implement | achieved the high-security near field communication which prevents the data transmission to the other party which is not intended can be provided.

It is a block diagram which shows the structure of the portable radio | wireless terminal 100 which concerns on this embodiment. It is a flowchart which shows the operation example at the time of the near field communication of the portable radio | wireless terminal 100a and the other party terminal 100b which concern on this embodiment. It is a figure explaining operation which starts the short-distance wireless communication with the display part 150 of the portable radio | wireless terminal 100 which concerns on this embodiment. It is a figure explaining operation which transmits data from the portable radio | wireless terminal 100a which concerns on this embodiment to the other party terminal 100b.

  Hereinafter, an embodiment of a portable wireless terminal 100 according to the present invention will be described based on the accompanying drawings.

  FIG. 1 is a block diagram illustrating a configuration of a mobile wireless terminal 100 according to the present embodiment.

  FIG. 2 is a flowchart showing an operation example during short-range wireless communication between the portable wireless terminal 100a and the counterpart terminal 100b according to the present embodiment.

  FIG. 3 is a diagram illustrating an operation for starting short-range wireless communication with the display unit 150 of the mobile wireless terminal 100 according to the present embodiment.

  FIG. 4 is a diagram for explaining an operation of transmitting data from the portable wireless terminal 100a to the partner terminal 100b according to the present embodiment.

  As shown in FIG. 1, the portable wireless terminal 100 according to the present embodiment includes a short-range wireless communication unit 110, a long-range wireless communication unit 120, a storage unit 130, a control unit 140, a display unit 150, and an operation. It has an input unit 160, a touch sensor 160a, and a fingerprint detection unit 160b.

  The short-range wireless communication unit 110 can directly communicate with a partner terminal. For example, the short-range wireless communication unit 110 is visible in infrared communication (IrDA: Infrared Data Association) with a communication distance of 1 m or less or communication using light of a wavelength other than infrared. Optical communication is exemplified, and also, magnetic field communication (RFID: Radio Frequency Identification) represented by wireless PAN (Wireless Personal Area Network) within a communication distance of several tens of meters, ZigBee (registered trademark), UWB (Ultra Wideband), Bluetooth (Registered trademark). For example, in the case of IrDA, the short-distance wireless port 110a of the portable wireless terminal 100a and the counterpart terminal 100b face each other, the transmission data supplied from the control unit 140 is subjected to predetermined modulation processing, converted into an infrared signal, and transmitted. . Further, the received infrared signal from the counterpart terminal 100 b is subjected to predetermined demodulation processing to be converted into reception data, and is output to the control unit 140.

  The data transmitted and received by the short-range wireless communication unit 110 includes not only data stored in the storage unit 130 in advance but also data acquired by the long-range wireless communication unit 120, such as data such as an address book and a photograph. is there.

  The long-range wireless communication unit 120 communicates with a partner terminal via a network such as a base station or an access point. For example, a wireless LAN (Wireless Local Area Network) other than a wireless PAN (Wireless Personal Area Network) is used. Corresponds to a communication unit that realizes a communication distance. Examples include iBurst, WiMAX (Worldwide Interoperability for Microwave Access), and other communications such as wireless MAN (Wireless Metropolitan Area Network) with a communication distance of 50 km or less, CDMA2000, W-CDMA, and GSM (Global System for Mobile communication). There is a wireless WAN (wireless wide area network) having a communication distance of 50 km or more, which is wireless communication with a wireless communication network operated by an operator (more precisely, a base station connected to the wireless communication network). For example, the transmission data supplied from the control unit 140 is subjected to predetermined modulation processing to be converted into a radio signal and transmitted. Further, the received radio signal from the communication network is subjected to predetermined demodulation processing to be converted into reception data, and is output to the control unit 140.

  Data transmitted and received by the long-range wireless communication unit 120 is, for example, voice data related to voice calls, text data and image data related to mails, and address information of communication partners.

  The storage unit 130 buffers (temporarily stores) data necessary for short-distance wireless communication of the ROM, RAM, and portable wireless terminal 100, and stores image data, voice data, address book, incoming / outgoing call history data, and the like. It is a storage device that stores information.

The storage unit 130 also has a memory area for buffering fingerprint data and predetermined data detected by the fingerprint detection unit 160b during short-range wireless communication.
The control unit 140 performs overall control of the mobile wireless terminal 100.

  For example, at the time of voice call, mail transmission / reception, short distance wireless communication, etc., the data necessary for each communication is subjected to predetermined processing, and the short distance wireless communication unit 110 or the long distance wireless communication unit corresponding to each communication 120 causes the data to be transmitted.

  Note that, according to the embodiment of the present invention, the control unit 140 performs a movement determination that determines that the detection position after the touch detection by the touch sensor 160a with the user's finger or the touch pen is detected. Details of this will be described later.

  Further, after determining the movement, the control unit 140 activates the fingerprint detection unit 160b. When a fingerprint is detected by the fingerprint detection unit 160b, the fingerprint data generated based on the detected fingerprint and predetermined data based on the symbol image 151 are buffered (temporarily stored).

  The display unit 150 includes an organic EL display (Electro-Luminescence Display) configured by arranging a large number of pixels (a combination of light emitting elements of a plurality of colors) vertically and horizontally, and a TFT liquid crystal display (Thin Film) in which transistors are formed on a resin substrate. A symbol image corresponding to display data generated by the control unit 140 and written in a predetermined area (VRAM area) of the storage unit 130 is displayed.

  In addition, the display unit 150 displays, for example, a telephone number of a transmission destination at the time of wireless transmission by the base station communication unit, a telephone number of a transmission source at the time of incoming call, contents of received mail and transmitted mail, web page, date, time, battery remaining The volume, transmission success / failure, document, standby screen, etc. are displayed.

  The display unit 150 also displays a symbol image 151 based on data that can be transmitted by short-range wireless communication on the screen.

  The symbol image 151 is an image that symbolizes the data to be transmitted and visually recognized by the user. Specifically, an icon, a thumbnail, or the like can be used as the symbol image 151. The predetermined sliding operation on the touch sensor 160a of the symbol image 151 serves as a trigger for the fingerprint detection unit 160b, and details thereof will be described later.

  The operation input unit 160 includes the touch sensor 160a and the fingerprint detection unit 160b, but may include other keys.

  The touch sensor 160 a is formed of a transparent or translucent material and is superimposed on the display unit 150. Typically, there are two methods for sensing the touch of the touch sensor 160a: a pressure-sensitive method that senses a change in pressure and a capacitance method that senses an electrical signal due to static electricity.

  In addition, the control unit 140 performs a movement determination that determines that the detection position after the touch detection by the touch sensor 160a with the user's finger or the touch pen is detected.

  Note that the movement determination according to the present embodiment refers to the movement of the detection position of the touch sensor 160a at a predetermined speed or higher after the touch sensor 160a detects the contact of the user's finger or touch pen in the area superimposed on the symbol image 151. It means that the detection position has been moved to the detectable end of the touch sensor 160a.

  In the present embodiment, in particular, when the contact detection and the movement determination are performed on the symbol image 151 representing data that can be transmitted by the short-range communication unit 110, the fingerprint detection unit 160b is activated as a trigger. To do.

  The fingerprint detection unit 160b is a capacitance type sensor, and the contact state of the finger is determined by changing the charge accumulation in the dots constituting the matrix portion of the semiconductor sensor, and the number of dots sensed by the finger skin contact is constant. A fingerprint reader that operates to automatically read a fingerprint when it exceeds a certain number, automatically extract the feature information contained in the fingerprint pattern from the scanned image data, and generate fingerprint data. is there.

  The fingerprint detection unit 160b is located at a part of the display unit 150 superimposed on the touch sensor 160a or a part of the outer edge of the touch sensor 160a, and is activated by detection of a predetermined sliding operation by the touch sensor 160a. Fingerprint detection is started by fingerprint contact.

  Next, an example of operation during short-range wireless communication between the portable wireless terminal 100a and the counterpart terminal 100b will be described with reference to the flowchart shown in FIG.

Step ST1:
Predetermined data to be transmitted to the counterpart terminal 100b by the first communication unit 110, for example, an image file or its own profile (telephone number, e-mail address, etc.) by the user input via the operation input unit 160 shown in FIG. The user's personal information) text file or the like is selected and displayed as a symbol image 151 on the display unit 150.

Step ST2:
The control unit 140 detects contact with the touch sensor 160a in a region that is superimposed on the symbol image 151 of the data displayed in step ST1, and continuously detects contact and sliding (operation for rubbing the display unit). Then, the symbol image 151 moves in the display unit 150 along the sliding. In addition, the above-described predetermined sliding means that the predetermined speed is exceeded or the sliding is continued to the end of the detection area of the touch sensor 160a.

Step ST3:
The control unit 140 is configured on a part or an outer edge of the display unit 150 superimposed on the touch sensor 160a that configures the display unit 150 following the detection of contact and sliding on the symbol image 151 in step ST2. The fingerprint detection unit 160b detects a fingerprint. At that time, the backlight of the display unit 150 may be turned on to notify the user that fingerprint detection has been performed.

  In addition, the control unit 140 extracts fingerprint feature portions detected by the fingerprint detection unit 160b to generate fingerprint data, and causes the storage unit 130 to buffer (temporarily store) the fingerprint data. This fingerprint data is defined as second fingerprint data.

Step ST4:
The control unit 140 activates the short-range wireless communication process after detecting the fingerprint in step ST3, buffers the selected predetermined data, and transmits a start request and a fingerprint data output request to the counterpart terminal 100b. At this time, the backlight of the display unit 150 may be turned on to notify the user that communication has started.

Step ST5:
When receiving the fingerprint data from the counterpart terminal 100b in step ST13, the control unit 140 stores the fingerprint data in the storage unit 130 and transmits a response indicating that the fingerprint data has been successfully received to the counterpart terminal 100b. Further, this fingerprint data is set as first fingerprint data.

Step ST6:
The control unit 140 compares the second fingerprint data buffered in the storage unit 130 in step ST4 with the first fingerprint data received from the counterpart terminal 100b in step ST5. If they match, the control unit 140 proceeds to step ST7. If not, the process proceeds to step ST10.

Step ST7:
The control unit 140 deletes the second fingerprint data buffered in the storage unit 130 in step ST3 and the first fingerprint data received from the counterpart terminal and stored in the storage unit 130. In step ST7, the first fingerprint data and the second fingerprint data after the determination are left in the storage unit 130 in order to cause an increase in extra data and a decrease in security.

Step ST8:
The control unit 140 causes the short-range wireless communication unit 110 to transmit the predetermined data buffered in the storage unit 130 in step ST4. Thereafter, when a data reception confirmation is received from the counterpart terminal 100b, the process proceeds to step ST9.

Step ST9:
The control unit 140 receives the data reception confirmation from the counterpart terminal 100b in step ST8, or terminates the short-range wireless communication when the number of times that the determination is inconsistent exceeds a predetermined number in step ST10.

Step ST10:
When the determination is inconsistent in step ST6, the control unit 140 causes the storage unit 130 to cumulatively record the number of mismatches, and when the number of mismatches exceeds a predetermined number, Terminate communication.

Step ST11:
After receiving the communication start request transmitted from portable wireless terminal 100a in step ST4, counterpart terminal 100b transmits a reply indicating that communication is possible and establishes negotiation with portable wireless terminal 100a. Let

  In addition, when the partner terminal 100b receives the fingerprint data output request, the fingerprint detection unit 160b can detect the fingerprint.

  At this time, the partner terminal 100b may display a user interface for detecting the fingerprint on the display unit 150, or may request the detection of the fingerprint by turning on the backlight of the display unit 150 without displaying the user interface. You may let me know.

Step ST12:
The counterpart terminal 100b proceeds to step ST13 when it detects a fingerprint within a predetermined time from when the fingerprint can be detected at step ST11, whereas it does not detect the fingerprint within the predetermined time. The process proceeds to step ST16.
When the partner terminal 100b detects a fingerprint, the detected fingerprint extracts feature information and buffers it in the storage unit 130 of the partner terminal 100b as first fingerprint data.

Step ST13:
The counterpart terminal 100b transmits the first fingerprint data buffered in the storage unit 130. Thereafter, when the reception confirmation of the fingerprint data is received from the portable wireless terminal 100a, the process moves to step ST14.

Step ST14:
The counterpart terminal 100b deletes the first fingerprint data buffered in the storage unit 130. The reason for providing this step is the same as in step ST7, in order to increase extra data and improve security. This step may be performed after data reception in step ST15.

Step ST15:
The counterpart terminal 100b stores the received predetermined data in the storage unit 130, and transmits a response (data reception confirmation) indicating that the predetermined data has been received to the portable wireless terminal 100a.

  Further, the partner terminal 100 may display a user interface on the display unit 150 that allows the user to select whether to store or discard the received predetermined data.

Step ST16:
The partner terminal 100b terminates the short-range wireless communication if a fingerprint is not detected due to a time-out in step ST12, or if a data reception confirmation is transmitted from the portable wireless terminal 100a in step ST15.

  As described above, according to the portable wireless terminal 100a of this embodiment, when transmitting selected data during short-range wireless communication, the fingerprint data generated by the user's fingerprint detection and the partner terminal 100b are transmitted. Security data that compares the fingerprint data and starts data transmission if they match, but closes short-range wireless communication if they do not match more than a certain number of times, preventing data transmission to unintended partners High short-distance wireless communication.

  Next, FIG. 3 is a diagram showing operations up to the movement of the display of the symbol image 151 and the start of short-range wireless communication in the portable wireless terminal 100.

  First, as shown in FIGS. 3A to 3C, the display unit 150 is located at the center of the mobile wireless terminal 100, and the touch sensor 160 a is superimposed. Further, the fingerprint detection unit 160b is located at the outer edge of the display unit 150, and a short-range wireless communication port 110a is installed in the vicinity thereof. Note that the fingerprint detection unit 160b may be formed in part of the display unit 150.

  As shown in FIG. 3A, the touch sensor 160a is touched so as to be superimposed on the area of the symbol image 151 in the address book displayed by the user's predetermined operation.

  Next, as shown in FIG. 3B, when sliding is performed in the sliding direction indicated by the arrow from that state, a symbol image 151 moved in the sliding direction is displayed on the display unit 150.

  Next, as shown in FIG. 3C, sliding on the touch sensor 160a is continued, and when finger contact is detected by the fingerprint detection unit 160b, the fingerprint is detected and the generated fingerprint data is stored. The short-range wireless communication is started while being buffered by the unit 130. At this time, the backlight of the display unit 150 is turned on to notify the user of the start of near field communication.

  With the configuration described above, the user can easily start fingerprint detection and short-range wireless communication.

  FIG. 4 shows display and operation of the display unit 150 in data transmission from the portable wireless terminal 100a to the counterpart terminal 100b.

  First, as shown in FIG. 4 (a), the short-range wireless communication is performed such that the short-range wireless communication port 110a of the portable wireless terminal 100a and the short-range wireless communication port 110a of the counterpart terminal 100b face each other, Perform within a short distance of several tens of meters.

  When a fingerprint is detected by the fingerprint detection unit 160b, the portable wireless terminal 100a transmits a fingerprint output request to the counterpart terminal 100b.

  Next, the counterpart terminal 100b that has received the fingerprint output request transmits the first fingerprint data detected by the fingerprint detection unit 160b to the portable wireless terminal 100a.

  Next, the mobile wireless terminal 100a that has received the first fingerprint data determines whether or not the second fingerprint data buffered in the storage unit 130 matches the first fingerprint data. The address book data buffered in the storage unit 130 is transmitted to the counterpart terminal 100b.

  Next, when the partner terminal 100b receives the address book data, as shown in FIG. 4B, the user interface indicating that the symbol image 151 of the received address book data and the data are received on the display unit 150 of the partner terminal 100b. May be displayed.

In addition, when the mobile radio terminal 100a receives a data reception confirmation from the counterpart terminal 100b, the mobile radio terminal 100a may display a user interface indicating that the data transmission is completed.
With the configuration described above, the user can easily start fingerprint detection and short-range wireless communication.

  In addition, when the number of times the first fingerprint data and the second fingerprint data do not match is equal to or greater than a predetermined number, the short distance wireless communication is forcibly terminated, thereby realizing high security data communication. Has the effect of

  Further, when the first fingerprint data and the second fingerprint data match, the second fingerprint data stored in the portable wireless terminal 100 is deleted, thereby saving data capacity and fingerprint data. It has the effect of preventing misuse.

  In particular, in the portable wireless terminal 100 in which the touch sensor 160a is superimposed on the display unit 150, data detection starts when the fingerprint detection unit 160b detects the fingerprint following the detection of the sliding operation of the touch sensor 160a. Therefore, the operability in performing near field communication is improved.

  In addition, since the backlight of the display unit 150 is turned on when fingerprint detection is performed by the fingerprint detection unit 160b, the user can easily determine the start of short-range wireless communication. Have

  In addition, since the long-distance wireless communication unit 120 is configured to be able to communicate with an external network, even data other than data built in the portable wireless terminal 100 can be communicated to the other party by short-range wireless communication. Has the effect of being able to.

  Further, when the predetermined communication by the short-range wireless communication unit 110 is started and the fingerprint data stored in the storage unit 130 is transmitted, the control unit 140 of the partner terminal 100b deletes the fingerprint data stored in the storage unit 130. And since it has the structure which preserve | saves the received predetermined data in a memory | storage part, it has the effect of implement | achieving highly secure data communication.

  In the above-described embodiment, an address book is shown as an example of data transmitted by short-range wireless communication. However, image data other than the address book, such as photos, and voice data such as music may be used.

100a mobile wireless terminal 100b partner terminal 110 short-range wireless communication unit 110a short-range wireless communication port 120 long-range wireless communication unit 130 storage unit 140 control unit 150 display unit 151 symbol image 160 operation input unit 160a touch sensor 160b fingerprint detection unit

Claims (12)

A fingerprint detector for detecting fingerprints;
A near field communication unit that performs near field communication;
A storage unit for storing the detected fingerprint and predetermined data;
A control unit that controls transmission of the predetermined data stored in the storage unit by the short-range wireless communication unit;
Have
The control unit receives first fingerprint data from the counterpart terminal after the start of communication by the short-range wireless communication unit, and is detected by the fingerprint detection unit and stored in the storage unit It is determined whether or not the first fingerprint data matches, and if it matches, the transmission of the predetermined data is permitted by the short-range wireless communication unit, and if they do not match, the transmission of the predetermined data is permitted. A portable wireless terminal characterized by not permitting. The control unit cumulatively records the number of times that the first fingerprint data and the second fingerprint data do not match after the communication by the short-range wireless communication unit is started in the storage unit. The portable wireless terminal according to claim 1, wherein when the number of mismatches exceeds a predetermined number, control is performed to end communication by the short-range wireless communication unit. The said control part deletes the said 2nd fingerprint data preserve | saved at the said memory | storage part, when the said 1st fingerprint data and the said 2nd fingerprint data correspond in the said determination. Item 2. A portable wireless terminal according to Item 1. A touch sensor superimposed on the display unit;
The fingerprint detection unit is located at a part of the display unit on which the touch sensor is superimposed or a part of an outer edge of the display unit,
When the fingerprint is detected by the fingerprint detection unit following the movement determination in which the touch is detected by the touch sensor and the detection position is moved, the predetermined communication is performed. The portable wireless terminal according to claim 1, wherein the portable wireless terminal starts. The display unit displays a symbol image corresponding to the predetermined data;
The said control part starts the detection of the said fingerprint, and the said predetermined | prescribed communication, if the said movement determination arises after detecting the contact in the area | region superimposed on the said symbol image by the said touch sensor. 4. The portable wireless terminal according to 4. The control unit is configured such that a movement speed of the detection position following the detection of the contact in the movement determination is equal to or higher than a predetermined speed, or a movement of the detection position following the detection of the contact is a detectable end of the touch sensor. The portable wireless terminal according to claim 5, wherein the determination of movement of the detection position is made by continuing to the point. The said control part changes the lighting control of the backlight of the said display part from the state before the start of the said communication, if communication is started by the said short distance wireless communication part. The portable wireless terminal according to any one of the above. The portable wireless terminal according to claim 1, wherein the short-range wireless communication unit performs infrared communication or visible light communication. A long-range wireless communication unit capable of longer-distance communication than the short-range wireless communication unit,
The portable wireless terminal according to claim 1, wherein the predetermined data is data acquired by the long-range wireless communication unit. A long-range wireless communication unit capable of longer-distance communication than the short-range wireless communication unit,
The portable wireless terminal according to any one of claims 1 to 8, wherein the predetermined data is address information of the terminal for receiving an incoming call by the long-range wireless communication unit. A fingerprint detector for detecting fingerprints;
A communication unit for performing short-range wireless communication;
A storage unit for storing the fingerprint detected by the fingerprint detection unit;
A control unit;
Have
When the communication by the communication unit starts, the control unit sets the fingerprint detection unit in a detectable state, and when a fingerprint is detected by the fingerprint detection unit, stores the fingerprint data of the fingerprint in the storage unit , The communication unit transmits to the partner terminal, and after the transmission, deletes the fingerprint data stored in the storage unit, and after transmitting the fingerprint data, when receiving predetermined data in the communication, A portable wireless terminal, wherein predetermined data is stored in the storage unit. A first mobile terminal having a first communication unit and a first fingerprint detection unit for performing short-range wireless communication; and a second mobile terminal having a second communication unit and a second fingerprint detection unit for performing short-range wireless communication. A data transmission control method for transmitting data between,
A first step of detecting transmission-side fingerprint data by the first fingerprint detection unit;
A second step of detecting reception-side fingerprint data by the second fingerprint detection unit;
A third step in which communication connection is started between the first communication unit and the second communication unit;
A fourth step of transmitting the receiving side fingerprint data from the second portable terminal to the first portable terminal by the communication;
A fifth step of comparing the received fingerprint data received with the received fingerprint data at the first portable terminal;
If a match is determined in the fifth step, transmission of predetermined data in the first portable terminal to the second portable terminal is permitted by the first communication unit, and transmission is not permitted unless a match is determined. A sixth step;
A data transmission control method comprising: a seventh step of storing the predetermined data when the second portable terminal receives the predetermined data.

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