JP2005301659A - Electronic device equipped with fingerprint authentication function - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an electronic device equipped with a fingerprint authentication function that is convenient to use as a data input device while eliminating the need to enlarge a mouse. <P>SOLUTION: The electronic device includes a mouse 100 having a fingerprint authentication sensor 110, and a device body 200 having the function of authenticating fingerprints on the basis of the sensing data of the fingerprint authentication sensor 110, with the mouse 100 connected to the device body. The fingerprint authentication sensor 110 reads users' fingerprints one by one for output as the sensing data. The device body 200 creates the image data of the fingerprints on the basis of the sensing data, records the image data with a reference point α in a memory part 220, compares the newest image data with the previous image data on the memory part 220, calculates the directions of movement from the reference point α of the previous image data to the reference point α' of the newest image data in X and Y directions and the amounts of movement in both directions, compares the amount Δx of movement in X direction with the amount Δy of movement in Y direction, and recognizes the direction in which the amount of movement is greater and this amount of movement as a scrolling operation by the user. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an electronic device with a fingerprint authentication function having a mouse provided with a fingerprint authentication sensor and a device main body to which the mouse is connected.

  As this type of electronic device with a fingerprint authentication function, there is a device having a mouse with a fingerprint authentication sensor and a computer to which the mouse is connected and performing fingerprint authentication based on sensing data of the fingerprint authentication sensor. (See Patent Document 1).

  Further, the user's fingerprint is continuously read through the fingerprint authentication sensor, the output results are compared, and data for detecting the movement of the user's finger on the fingerprint authentication sensor as a coordinate input on the screen based on the comparison result There is an input device (see Patent Document 2).

  A so-called line-type fingerprint authentication sensor may be used as the fingerprint authentication sensor (see Patent Document 3).

JP 2002-73273 A JP 2001-216084 A JP-A-10-91769

  However, the mouse of Patent Document 1 is simply incorporated with a fingerprint authentication sensor. Therefore, there is a problem that the mouse is enlarged. Further, since the data input device performs coordinate input through a fingerprint authentication sensor, it has a problem that it is difficult to use as a data input device.

  The present invention has been made in view of the above circumstances, and an object thereof is to provide an electronic device with a fingerprint authentication function that is easy to use as a data input device and that does not increase the size of a mouse. It is in.

  In order to solve the above-described problems, an electronic device with a fingerprint authentication function according to the present invention includes a mouse having a fingerprint authentication sensor and a device connected to the mouse and based on sensing data output from the fingerprint authentication sensor. An electronic device having a device body having a fingerprint authentication function for performing authentication, wherein the mouse sequentially reads a user's fingerprint placed on the sensor surface and outputs it as sensing data, The device body sequentially creates fingerprint image data based on the sensing data, attaches a reference point to a predetermined location of the image data, records it in the memory unit, and then stores the latest image data on the memory unit and the X and Y direction of movement from the reference point of the previous image data to the reference point of the latest image data by comparing with the image data recorded before the latest image data Then, the amount of movement in each direction is obtained, and then the amount of movement in the X direction is compared with the amount of movement in the Y direction. As a result of this comparison, the direction in which the amount of movement is large and the amount of movement are recognized as the user's scroll operation. It has become.

  The mouse fingerprint authentication sensor has a plurality of sensor elements, and is configured to switch between a fingerprint authentication mode and a scroll mode in accordance with a mode switching signal of the device body. On the other hand, it is preferable that a part of sensor elements capable of reading the user's fingerprint in the scroll mode are turned on.

  An electrode for detecting that a user's finger is placed on the sensor surface is provided in the vicinity of the fingerprint authentication sensor of the mouse, and the device body performs fingerprint authentication according to an electrical signal of the electrode. It preferably has a function of controlling on / off of the sensor.

  According to the electronic device with a fingerprint authentication function according to claim 1 of the present invention, it is possible to recognize the scroll operation of the user's screen by comparing the fingerprint image data obtained through the fingerprint authentication sensor. For this reason, since the fingerprint authentication sensor can be provided in the mouse instead of the scroll ball or the scroll wheel, the mouse is not enlarged as in the conventional example. In addition, since the scrolling operation only moves the finger on the sensor surface of the fingerprint authentication sensor in any X and Y directions, it is substantially the same as the operation of the well-known scroll ball and scroll wheel. Can be performed using a well-known ball or click button, it is convenient and very convenient.

  In the case of the electronic device with a fingerprint authentication function according to claim 2 of the present invention, the fingerprint authentication sensor is merely used as a detecting means for the scroll operation, and it is not necessary to read the fingerprint with high accuracy. Some sensor elements that can read the user's fingerprint are turned on. For this reason, the power consumption of the mouse can be reduced.

  In the electronic device with a fingerprint authentication function according to claim 3 of the present invention, when a user's finger touches an electrode near the fingerprint authentication sensor, an electrical signal of the electrode changes. In response to this, the apparatus body determines that the finger of the user is on the sensor surface of the fingerprint authentication sensor, and can turn on the fingerprint authentication sensor. Accordingly, when the user's finger is not on the sensor surface, the fingerprint authentication sensor can be turned off, which is advantageous in reducing power consumption.

  Hereinafter, an electronic device with a fingerprint authentication function according to an embodiment of the present invention will be described with reference to the drawings. 1 is a block diagram of an electronic device with a fingerprint authentication function according to an embodiment of the present invention, FIG. 2 is a schematic plan view of a mouse of the electronic device, and FIG. 3 is a sensor surface of a fingerprint authentication sensor of the mouse of the electronic device. FIG. 4A is a diagram showing the fingerprint authentication mode, FIG. 4B is a diagram showing the scroll mode, and FIG. 4 is a fingerprint authentication interrupt processed by the control unit of the main body of the electronic device. FIG. 5 is a flowchart of a program, FIG. 5 is a flowchart of a scroll mode interrupt program processed by the control unit of the device main body of the electronic device, and FIG. 6 is a diagram showing fingerprint image data created by the device main body of the electronic device. (A) is a sample of image data recorded before the latest image data, (b) is a sample of the latest image data, and FIG. 7 is a reference of image data obtained by the main body of the electronic device. Point transfer It is a figure which shows a moving direction and the amount of movement.

  The electronic device with a fingerprint authentication function shown in FIG. 1 performs fingerprint authentication based on a mouse 100 having a fingerprint authentication sensor 110 and a device connected to the mouse 100 and sensing data output from the fingerprint authentication sensor 110. And a device main body 200 having a fingerprint authentication function. Hereinafter, each part will be described in detail.

  As shown in FIGS. 1 and 2, the mouse 100 includes a fingerprint authentication sensor 110 provided at the center of one end of the upper part of the mouse body, and a coordinate input signal acquisition unit 120.

  Here, the fingerprint authentication sensor 110 is a well-known line type fingerprint authentication sensor, and has a plurality of sensor elements as shown in FIG. The fingerprint authentication sensor 110 sequentially reads a user's fingerprint placed on the sensor surface and outputs it as sensing data through the communication unit 130. Further, the fingerprint authentication sensor 110 is switched from the fingerprint authentication mode to the scroll mode in response to the mode switching signal of the device main body 200, and in the fingerprint authentication mode, all sensor elements are in the on state ((a in FIG. 3). On the other hand, in the scroll mode, some sensor elements are turned on (see (b) in FIG. 3) so that the user's fingerprint can be read. ing.

  The coordinate input signal acquisition unit 120 includes coordinates such as a right click button provided on the right side of the fingerprint authentication sensor 110, a left click button provided on the left side of the fingerprint authentication sensor 110, and a ball provided on the bottom surface of the mouse body. The input operation is converted into a coordinate input signal and transmitted to the device main body 200 through the communication unit 130.

  The electrodes 140 and 140 are disposed at both ends of the fingerprint authentication sensor 110 as shown in FIG. The electrodes 140, 140 are configured to output an electrical signal to the device main body 200 through the communication unit 130 when a user's finger contacts.

  The device main body 200 is a computer, and as shown in FIG. 1, includes a control unit 210 that controls the whole, a memory unit 220 such as a hard disk, and a communication unit 230 to which the mouse 100 and a display (not shown) are connected. It has a basic configuration.

  The memory unit 220 stores a fingerprint authentication interrupt program shown in FIG. 4 and a scroll mode interrupt program shown in FIG. 5 in addition to a basic program such as an operation system as a computer. The memory unit 220 stores fingerprint image data up to the first joint of the user's finger that has been input in advance as reference data. The basic program includes a program for performing an input operation of the device main body 200 based on a coordinate input signal of an input device such as the mouse 100, a program for locking the operation of the device main body 200, and the like.

  The control unit 210 is a CPU or the like. A communication unit 230 and a memory unit 220 are connected to the input / output ports of the control unit 210. When the program on the memory unit 220 is processed by the control unit 210, a fingerprint authentication function and a scroll function can be realized. The fingerprint authentication interrupt program shown in FIG. 4 is processed when the power of the device main body 200 is turned on and when the screen saver program of the device main body 200 is processed. The scroll mode interruption program shown in FIG. 5 is processed when it is authenticated as a legitimate user by fingerprint authentication.

  Hereinafter, the usage method of the electronic device with fingerprint authentication function will be described, and the contents of each program processed by the control unit 210 will be described in detail.

  First, when the device main body 200 is turned on or the screen saver program is processed, the basic program is processed, and the operation of the device main body 200 is locked, while the fingerprint authentication interrupt program shown in FIG. 4 is processed. The Then, it is determined whether or not the electric signals of the electrodes 140 and 140 of the mouse 100 are input (s1). That is, it is determined whether or not the user's finger is placed on the sensor surface of the fingerprint authentication sensor 110. As a result of this determination, if it is determined that the user's finger is in contact with the electrodes 140 and 140 and the user's finger is placed on the sensor surface, as shown in FIG. Turn it on (s2). Then, all the sensor elements of the fingerprint authentication sensor 110 are turned on.

  Then, the fingerprint authentication sensor 110 sequentially reads the user's fingerprint on the sensor surface and outputs it as sensing data to the device body 200 (s3).

  The device main body 200 sequentially creates fingerprint image data based on the sensing data, records the fingerprint image data in the memory unit 220, and joins the image data to create the fingerprint image data up to the first joint of the finger. Thereafter, the image data and the reference data on the memory unit 220 are compared to determine whether or not they match (s4). Specifically, a reference point is attached to a plurality of feature portions of the fingerprint in the image data during the creation process (refer to FIG. 6), and it is determined whether or not the reference points match each other. To do. At the same time, the counter is operated to count the number of times of fingerprint authentication.

  As a result of the determination in step 4, when it is determined that they do not match, it is determined whether or not fingerprint authentication has been performed a predetermined number of times (s5). If it is determined that the fingerprint authentication has not been performed a predetermined number of times, the process returns to step 3. On the other hand, if it is determined that the fingerprint authentication has been performed a predetermined number of times, the operation of the device main body 200 is kept locked (s6). Then, the fingerprint authentication interrupt program process is terminated.

  As a result of the determination in step 4, when it is determined that they match, the device main body 200 is unlocked (s7).

  Then, the scroll mode interruption program shown in FIG. 5 is processed (s8). Thereafter, the fingerprint authentication interrupt program process is terminated.

  First, when the scroll mode interruption program is processed, a mode switching signal is output to the fingerprint authentication sensor 110 (s10). Then, some sensor elements of the fingerprint authentication sensor 110 are turned on as shown in FIG. Thereafter, the fingerprint authentication sensor 110 sequentially reads the user's fingerprints placed on the sensor surface at predetermined time intervals and outputs them as sensing data.

  When this sensing data is input, fingerprint image data is sequentially generated based on the sensing data, and a reference point α is added to a predetermined portion in the image data, here, a feature portion of the fingerprint as shown in FIG. And record (s11). It should be noted that the reference point in the latest image data shown in (b) of FIG. 6 is marked with 'in order to distinguish it from the reference point of the previous image data shown in (a) of FIG.

  Thereafter, the latest image data on the memory unit (see (b) in FIG. 6) is compared with the image data recorded before the latest image data (see (a) in FIG. 6). The movement direction in the X and Y directions and the movement amount in each direction from the reference point α of the image data to the reference point α ′ of the latest image data are obtained (see FIG. 7) (s12). Thereafter, the movement amount Δx in the X direction is compared with the movement amount Δy in the Y direction. As a result of the comparison, the direction in which the movement amount is large and the movement amount are recognized as the scroll operation of the user's screen (s13). Then, the operation is output to the display. The scroll mode interrupt program ends when the power of the device main body 200 is turned off or the screen saver is processed. Until the process is completed, the processes of steps 11, 12, and 13 are performed according to the sensing data sequentially input from the fingerprint authentication sensor 110.

  In the case of such an electronic device with a fingerprint authentication function, it is possible to recognize the scroll operation of the user's screen by comparing the fingerprint image data obtained through the fingerprint authentication sensor 110. For this reason, since the fingerprint authentication sensor 110 can be provided in the mouse instead of the scroll ball or the scroll wheel, the mouse is not enlarged as in the conventional example. In addition, since the scroll operation only moves the finger on the sensor surface of the fingerprint authentication sensor 110 in arbitrary X and Y directions, it is substantially the same as the operation of the well-known scroll ball and scroll wheel. Since it can be performed using a known ball or click button, it is easy to use and very convenient.

  As long as the mouse 100 has the fingerprint authentication sensor 110, any design modification may be performed. For example, the number of click buttons may be one, or the design of a ball for inputting coordinates may be changed to an optical input means.

  As long as the fingerprint authentication sensor 110 sequentially reads the user's fingerprint placed on the sensor surface and outputs it as sensing data, any design modification may be performed. Therefore, although the fingerprint authentication sensor 110 is switched to the fingerprint authentication mode and the scroll mode, all sensor elements may be always turned on regardless of the mode. The fingerprint authentication sensor 110 can be provided not on the top of the mouse 100 but on the side or the like. The fingerprint authentication sensor 110 may not be a line type fingerprint authentication sensor, but may be a so-called area type fingerprint authentication sensor. Note that the fingerprint authentication sensor 110 is turned on in a part of the sensor elements so as to have a checkered pattern in the scroll mode. However, any part of the sensor can be used as long as the fingerprint of the user can be read in the scroll mode. Whether the element is turned on is arbitrary.

  Although the device main body 200 is a computer, the present invention is not limited to this, and any device can be used as long as it can be connected to a mouse. Needless to say, the function of the device main body 200 may be provided in the mouse 100 using, for example, a one-chip microcomputer.

It is a block diagram of an electronic device with a fingerprint authentication function according to an embodiment of the present invention. FIG. 3 is a schematic plan view of a mouse of the electronic device. FIG. 4 is an enlarged view of a sensor surface of a fingerprint authentication sensor of a mouse of the electronic device, where (a) is a diagram illustrating a fingerprint authentication mode, and (b) is a diagram illustrating a scroll mode. It is a flowchart of the fingerprint authentication interruption program processed by the control part of the apparatus main body of the same electronic apparatus. It is a flowchart of the scroll mode interruption program processed by the control part of the apparatus main body of the same electronic apparatus. It is the figure showing the image data of the fingerprint created by the device body of the electronic device, (a) is a sample of the image data recorded before the latest image data, (b) is the latest image data It is a sample. It is a figure which shows the moving direction and moving amount of the reference point of the image data calculated | required by the apparatus main body of the same electronic device.

Explanation of symbols

100 Mouse 110 Fingerprint authentication sensor 200 Device body

Claims (3)

  An electronic device with a fingerprint authentication function comprising a mouse having a fingerprint authentication sensor and a device body to which the mouse is connected and having a fingerprint authentication function for performing fingerprint authentication based on sensing data output from the fingerprint authentication sensor In the device, the mouse sequentially reads a user's fingerprint placed on the sensor surface and outputs it as sensing data, and the device body sequentially creates fingerprint image data based on the sensing data. A reference point is attached to a predetermined portion of the image data and recorded in the memory unit. Then, the latest image data on the memory unit is compared with the image data recorded before the latest image data. Obtain the movement direction and the amount of movement in each direction from the reference point of the previous image data to the reference point of the latest image data, and then move in the X direction And comparing the amount of movement of the Y-direction, the result of the comparison, the fingerprint authentication function-equipped electronic apparatus, characterized in that is adapted to recognize the direction and amount of movement amount is large move as a scroll operation of the user.   2. The electronic device with fingerprint authentication function according to claim 1, wherein the fingerprint authentication sensor of the mouse has a plurality of sensor elements, and switches between a fingerprint authentication mode and a scroll mode in accordance with a mode switching signal of the device body. In the fingerprint authentication mode, all sensor elements are turned on, while in the scroll mode, some sensor elements that can read the user's fingerprint are turned on. Electronic equipment with fingerprint authentication function.   In the electronic device with a fingerprint authentication function according to claim 1 or 2, an electrode for detecting that a user's finger is placed on the sensor surface is provided in the vicinity of the fingerprint authentication sensor of the mouse, The electronic device with a fingerprint authentication function, wherein the device main body has a function of controlling on / off of a fingerprint authentication sensor in accordance with an electric signal of the electrode.