JP2017151551A - Information processing apparatus, information processing method, and computer-executable program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an information processing apparatus configured to provide a user with other convenient functions, as well as identifying a person, by means of a fingerprint sensor, and to provide an information processing method, and a computer-executable program.SOLUTION: An information processing apparatus includes: a finger print sensor for reading a fingerprint of a finger; determination means for determining an operation parameter of the finger for the fingerprint sensor; collation means for collating the fingerprint read by the fingerprint sensor with registered fingerprints; and processing means for executing predetermined processing, on the basis of the operation parameter determined by the determination means, when coincidence is determined by the collation means.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an information processing apparatus, an information processing method, and a computer-executable program.

  Recently, fingerprint authentication is used in various devices such as information processing devices such as smartphones and notebook PCs. As sensors used for fingerprint authentication, for example, there are an area-type fingerprint sensor that is used by placing a finger on the sensor and standing still, and a line-type fingerprint sensor that is used by sliding (swiping) a finger against the sensor.

  The area-type fingerprint sensor is successful if the registered fingerprint matches the fingerprint read by the area-type fingerprint sensor, regardless of the angle at which the finger is touched. The line-type fingerprint sensor is successful if the registered fingerprint matches the fingerprint read by the line-type fingerprint sensor, regardless of whether the finger is slid forward or backward.

  By the way, although the fingerprint sensor is used for identifying an individual, it is desired not only to identify an individual but also to provide a user with other convenient additional functions.

JP 2008-123261 A

  The present invention has been made in view of the above, and an information processing apparatus and information processing method capable of providing a user with other convenient functions in addition to simply identifying an individual using a fingerprint sensor And a computer-executable program.

  In order to solve the above-described problems and achieve the object, the present invention provides a fingerprint sensor that reads a fingerprint of a finger, a determination unit that determines an operation parameter of the finger with respect to the fingerprint sensor, and a fingerprint read by the fingerprint sensor. And a collating unit that collates the registered fingerprint, and a processing unit that executes a predetermined process based on the operation parameter determined by the determining unit when the collating unit matches the collating unit. It is characterized by that.

  Further, according to a preferred aspect of the present invention, the predetermined process is a login process with a corresponding user name from among a plurality of registered user names based on the operation parameter determined by the determining means. It is desirable.

  According to a preferred aspect of the present invention, the predetermined process is a process of starting a corresponding application from a plurality of registered applications based on the operation parameter determined by the determination unit. Is desirable.

  According to a preferred aspect of the present invention, the predetermined process is a process of connecting to a corresponding website from registered websites based on the operation parameter determined by the determining means. Is desirable.

  According to still another preferable aspect of the present invention, the fingerprint sensor is an area type fingerprint sensor, and the operation parameter is an angle or pressure of a finger touched with respect to the area type fingerprint sensor. .

  According to a preferred aspect of the present invention, it is desirable that the fingerprint sensor is a line type fingerprint sensor, and the operation parameter is a finger slide direction or a finger slide speed with respect to the line type fingerprint sensor.

  Further, according to a preferred aspect of the present invention, it is desirable that the operation parameter is the number of finger operations within a predetermined time for the fingerprint sensor.

In order to solve the above-described problems and achieve the object, the present invention includes a step of reading a fingerprint of a finger with a fingerprint sensor, a determination step of determining an operation parameter of the finger with respect to the fingerprint sensor, and the fingerprint sensor A collation process for collating the fingerprint read in step 1 with the registered fingerprint;
The computer executes a processing step of executing a predetermined process based on the operation parameter determined in the determination step when the verification is matched in the verification step.

  In order to solve the above-described problems and achieve the object, the present invention includes a step of reading a fingerprint of a finger with a fingerprint sensor, a determination step of determining an operation parameter of the finger with respect to the fingerprint sensor, and the fingerprint sensor A collation step for collating the fingerprint read in step 1 with a registered fingerprint, and a processing step for executing a predetermined process based on the operation parameter determined in the determination step when the collation is matched in the verification step It is characterized by including these.

  An object of the present invention is to provide an information processing apparatus that can provide a user with other convenient functions in addition to simply identifying an individual using a fingerprint sensor.

FIG. 1 is a conceptual diagram illustrating an information processing apparatus according to an embodiment. FIG. 2 is a schematic perspective view illustrating an external configuration of the information processing apparatus according to the first embodiment. FIG. 3 is a diagram for explaining a finger touch angle with respect to the area-type fingerprint sensor. FIG. 4 is a diagram for explaining a finger touch angle with respect to the area-type fingerprint sensor. FIG. 5 is a flowchart for explaining an example of a process of logging in with a corresponding user name in accordance with the finger touch angle with respect to the area-type fingerprint sensor. FIG. 6 is a diagram for explaining a specific example of a process of logging in with a corresponding user name in accordance with the finger touch angle with respect to the area-type fingerprint sensor. FIG. 7 is a schematic perspective view illustrating an external configuration of the information processing apparatus according to the second embodiment. FIG. 8 is an explanatory diagram for explaining an example of the relationship between the finger sliding direction and the fingerprint image in the line-type fingerprint sensor. FIG. 9 is a flowchart for explaining an example of processing for starting a corresponding application in accordance with the finger sliding direction with respect to the line-type fingerprint sensor. FIG. 10 is a diagram for explaining a specific example of the process of starting the corresponding application in accordance with the finger sliding direction with respect to the line-type fingerprint sensor. FIG. 11 is a diagram illustrating a hardware configuration example of the information processing apparatus according to the embodiment and the example.

  Hereinafter, an information processing apparatus, an information processing method, and a computer-executable program according to the present invention will be described in detail with reference to the drawings. Although the components of the present invention are generally illustrated in the drawings herein, it can be readily understood that they may be arranged and designed in a wide variety of configurations with various configurations. Accordingly, the following more detailed description of the apparatus, system and method embodiments of the present invention is not intended to limit the scope of the invention as set forth in the claims, but merely as an example of selected embodiments of the invention. It is intended merely to illustrate selected embodiments of apparatus, systems and methods consistent with the present invention as set forth in the claims herein. Those skilled in the art will appreciate that the present invention may be implemented without one or more of the specific details or with other methods, components, and materials. Further, the following embodiments and examples may be implemented independently or in combination. In the flowchart shown below, some processes may be deleted, or the order of the processes may be changed. Note that the present invention is not limited to the embodiments. In addition, constituent elements in the following embodiments include those that can be easily assumed by those skilled in the art or that are substantially the same.

(Embodiment)
An information processing apparatus according to an embodiment of the present invention will be described with reference to FIG. FIG. 1 is a conceptual diagram illustrating an example of an information processing apparatus according to an embodiment. The information processing apparatus according to the present embodiment is an information processing apparatus including a fingerprint sensor such as a notebook PC, a desktop PC, a smartphone, a tablet, a mobile phone, or a PDA. The information processing apparatus according to the present embodiment uses a fingerprint sensor to not only identify an individual but also provide other convenient functions to the user.

  As shown in FIG. 1, the information processing apparatus 1 according to the present embodiment includes a fingerprint sensor 11, a determination unit 12, a collation unit 13, a processing unit 14, and a fingerprint related information storage unit 15.

  The fingerprint sensor 11 is for reading a fingerprint of a finger, and is, for example, an area-type fingerprint sensor or a line-type fingerprint sensor.

  The discriminating means 12 discriminates a finger operation parameter for the fingerprint sensor 11. Here, the operation parameter of the finger is a physical quantity of the operation by the finger such as the operation direction, operation angle, operation speed, operation pressure, and the number of operations of the finger. Specifically, for example, when the fingerprint sensor 11 is an area type (including a rectangular type, a round type, an elliptical type, etc.) fingerprint sensor (see FIG. 2), the operation parameter is the same as that of the area type fingerprint sensor. It may be the angle or pressure of the touched finger. When the fingerprint sensor 11 is a line-type fingerprint sensor (see FIG. 7), the operation parameter may be a finger slide direction or a finger slide speed with respect to the line-type fingerprint sensor. The operation parameter may be the number of finger operations within a predetermined time with respect to the fingerprint sensor 11. For example, when the fingerprint sensor 11 is an area-type fingerprint sensor, the number of finger touches is a line-type fingerprint sensor. May be the number of finger slides.

  The collation means 13 collates the fingerprint image read by the fingerprint sensor 11 with the registered fingerprint image. Specifically, the collation unit 13 collates whether the fingerprint image read by the fingerprint sensor 11 matches the registered fingerprint image stored in advance in the fingerprint related information storage unit 15.

  The processing unit 14 executes a predetermined process with reference to the information stored in the fingerprint related information storage unit 15 based on the operation parameter determined by the determination unit 12 when the verification unit 13 matches the verification. . For example, the predetermined process may be a login process with a corresponding user name from among a plurality of registered user names based on the operation parameter determined by the determination unit 12. The predetermined process may be a process of starting a corresponding application from a plurality of registered applications based on the operation parameter determined by the determination unit 11. The predetermined process may be a process of connecting to a corresponding website from registered websites based on the operation parameter determined by the determination unit 11. Further, in the case of an information processing apparatus capable of selectively executing a plurality of OSs, the predetermined process is performed based on the operation parameters determined by the determination unit 11 (for example, Windows (registered trademark) 7, 10). ) May be the activation of the corresponding OS.

  The fingerprint related information storage unit 15 stores the registered fingerprint image of the user, the contents of the operation parameters, the corresponding processing contents, and the like (for example, see FIGS. 6 and 10). Referenced by means 14.

  In the above configuration, the determination unit 12, the collation unit 13, and the processing unit 14 can be configured by hardware or software modules, or a combination thereof. Further, the functions of the discriminating means 12, the collating means 13, and the processing means 14 may be realized by a computer executing a program.

  As described above, according to the present embodiment, the fingerprint sensor 11 that reads the fingerprint of the finger, the determination unit 12 that determines the operation parameter of the finger for the fingerprint sensor 11, the fingerprint read by the fingerprint sensor 11, and the registration Collating means 13 for collating the fingerprint, and processing means 14 for executing a predetermined process based on the operation parameter determined by the determining means 12 when the matching is matched by the verifying means 13. Therefore, it is possible to execute a predetermined process according to the operation parameter of the finger with respect to the fingerprint sensor 11, and to use the fingerprint sensor not only to identify an individual but also to provide other convenient functions to the user. It becomes.

  In addition, since the predetermined process is a login process with a corresponding user name from among a plurality of registered user names based on the operation parameter determined by the determination unit 12, It is possible to log in with different user names according to the operation parameters.

  In addition, since the predetermined process is a process of starting a corresponding application from among a plurality of registered applications based on the operation parameter determined by the determination unit 12, Different applications can be started according to the operation parameters.

In addition, since the predetermined process is a connection process from the registered website to the corresponding website based on the operation parameter determined by the determination unit 12.
It is possible to connect to different websites in accordance with finger operation parameters for the fingerprint sensor 11.

  The fingerprint sensor 11 is an area type fingerprint sensor, and the operation parameter is the angle or pressure of the finger touched with respect to the area type fingerprint sensor. Corresponding processing can be executed in accordance with the angle or the touch pressure.

  The fingerprint sensor 11 is a line type fingerprint sensor, and the operation parameter is the finger sliding direction or the finger sliding speed with respect to the line type fingerprint sensor. Alternatively, the corresponding process can be executed according to the slide speed.

  Further, since the operation parameter is the number of finger operations within a predetermined time with respect to the fingerprint sensor, it is possible to execute a corresponding process according to the number of finger operations with respect to the fingerprint sensor within a predetermined time. .

Example 1
A first embodiment of the information processing apparatus 1 configured as shown in FIG. 1 will be described. In the first embodiment, an area-type fingerprint sensor 11A is used as the fingerprint sensor 11, and the operation parameters include a finger touch angle with respect to the area-type fingerprint sensor 11A, and a login process with a user name corresponding to the predetermined process. The case will be described.

  FIG. 2 is a schematic perspective view illustrating an external configuration of the information processing apparatus 1 according to the first embodiment. As illustrated in FIG. 2, the information processing apparatus 1 is a notebook PC and includes a first housing 20 and a second housing 30. In addition, the information processing apparatus 1 includes a hinge (connecting unit) 40 between the first housing 20 and the second housing 30. In FIG. 2, the direction extending parallel to the longitudinal direction of the first housing 20 is the X direction, and the directions extending parallel to the short direction of the first housing 20 are the Y axis direction, the X axis direction, and the Y axis. A vertical upward direction perpendicular to the direction is referred to as a Z-axis direction.

  On the surface of the first housing 20, a keyboard device 21, a touch pad 22, and an area-type fingerprint sensor 11 </ b> A are disposed on the side of the touch pad 22. A display unit 31 is disposed on the surface of the second housing 30.

  3 and 4 are diagrams for explaining the finger touch angle θ with respect to the area-type fingerprint sensor 11A. For example, in FIG. 3, when the finger is touched with the fingertip upward in a direction parallel to the upward direction in the Y-axis direction, the touch angle θ = 0 degrees, and the counterclockwise direction is the positive direction of rotation. The ranges where the touch angle θ is 0 ° ≦ θ <45 ° and 315 ° ≦ θ ≦ 360 ° (0 °) are defined as the touch angle θ1. A range in which the touch angle θ is 45 degrees ≦ θ <135 degrees is defined as a touch angle θ2. A range where the touch angle θ is 135 degrees ≦ θ <235 degrees is defined as a touch angle θ3. A range where the touch angle θ is 235 degrees ≦ θ <315 degrees is defined as a touch angle θ4.

  For example, as shown in FIG. 4A, when the finger is touched to the area-type fingerprint sensor 11A with the finger parallel to the upper direction in the Y-axis direction, the touch angle θ = 0 degrees, which is within the range of the touch angle θ1. It becomes. Also, as shown in FIG. 4B, when the finger is touched on the area type fingerprint sensor 11A in the horizontal direction (for example, when rotated 90 degrees), the touch angle θ = 90 degrees, and the touch angle It is within the range of θ2.

  The fingerprint related information storage unit 15 stores a user name, a registered fingerprint image of the user, and a finger touch angle with respect to the area type fingerprint sensor 11A in association with each other (see FIG. 6). The data storage format of the fingerprint related information storage unit 15 can employ various formats, for example, a table format. For example, the user can register a fingerprint image and a user name corresponding to the touch angle on the setting screen by operating the UI.

  FIG. 5 is a flowchart for explaining an example of a process of logging in with a corresponding user name in accordance with the finger touch angle with respect to the area-type fingerprint sensor 11A. The log-in process is executed when the power is turned on or when returning from the hibernation state. In FIG. 5, the area-type fingerprint sensor 11A reads the fingerprint of the touched finger, and outputs the read fingerprint image to the discrimination means 12, the collation means 13, and the processing means 14 (step S1). The discriminating means 12 discriminates the finger touch angle with respect to the area type fingerprint sensor 11A based on the fingerprint image inputted from the area type fingerprint sensor 11A (step S2). The collation means 13 collates the fingerprint image input from the fingerprint sensor 11 with the registered fingerprint image stored in the fingerprint related information storage unit 15 and determines whether or not they match (step S3).

  When the fingerprint image input from the area type fingerprint sensor 11A matches the registered fingerprint image stored in the fingerprint related information storage unit 15, the processing means 14 refers to the fingerprint related information storage unit 15 and A login process is executed with the registered fingerprint image determined to match and the user name corresponding to the finger touch angle determined by the determining means 12 (step S4). When the fingerprint image input from the area-type fingerprint sensor 11A does not match the registered fingerprint image stored in the fingerprint related information storage unit 15, the verification unit 13 displays an error message on the display unit 31. Good.

  FIG. 6 is a diagram for explaining a specific example of a process of logging in with a corresponding user name according to the finger touch angle with respect to the area-type fingerprint sensor 11A. Here, for example, the case where Mr. A is registered with the user name A1 and the user name A2 will be described as an example. For example, Mr. A uses the user name A1 for work and uses the user name A2 for private use, so that the user name is properly used for work use and private use. In FIG. 6, (A) shows that Mr. A touches the area-type fingerprint sensor 11A at a touch angle θ1, and (B) shows that Mr. A touches the area-type fingerprint sensor 11A at a touch angle θ2. Shows the case.

  In FIG. 6, the fingerprint related information storage unit 15 stores user names A <b> 1 and A <b> 2, Mr. A's registered fingerprint image, and touch angles θ <b> 1 and θ <b> 2 in association with each other. The user name A1 is registered in the touch angle θ1, and the user name A2 is registered in the touch angle θ2. In the example shown in FIG. 6, no user name is registered for the touch angles θ3 and θ4, but a user name may be registered for these.

  For example, when Mr. A touches the area fingerprint sensor 11A at a touch angle θ = 0 degrees, the area fingerprint sensor 11A reads the fingerprint of the touched finger. The discriminating means 12 discriminates the finger touch angle θ = 0 with respect to the area type fingerprint sensor 11A based on the fingerprint image input from the area type fingerprint sensor 11A. The collating unit 13 collates the fingerprint image input from the area-type fingerprint sensor 11 </ b> A with the registered fingerprint image of Mr. A stored in the fingerprint related information storage unit 15. Since the finger touch angle θ determined by the determination unit 12 is 0 °, the processing unit 14 refers to the fingerprint related information storage unit 15 and executes the login process with the user name A1 corresponding to the touch angle θ1. For example, the processing means 14 may display on the display unit 31 that the user is logged in with the user name A1.

  Similarly, when Mr. A touches the area fingerprint sensor 11A at a touch angle θ = 90 degrees, the area fingerprint sensor 11A reads the fingerprint of the touched finger. The discriminating means 12 discriminates the finger touch angle θ = 90 with respect to the area-type fingerprint sensor 11A based on the fingerprint image input from the area-type fingerprint sensor 11A. The collating unit 13 collates the fingerprint image input from the area-type fingerprint sensor 11 </ b> A with the registered fingerprint image of Mr. A stored in the fingerprint related information storage unit 15. The processing unit 14 performs the login process with the user name A2 corresponding to the touch angle θ2 with reference to the fingerprint related information storage unit 15 because the finger touch angle θ determined by the determination unit 12 is 90 degrees. For example, the processing unit 14 may display on the display unit 31 that the user is logged in with the user name A2.

  Note that the area-type fingerprint sensor 11A may be provided with a function of detecting a finger press, and the operation parameter described above may be the finger pressure. For example, when the finger press F is 0 <F ≦ F1, the login process is performed with the first user name. When the finger press F is F1 <F, the login process is performed with the second user name. Also good.

  The predetermined process described above may be a process of starting a corresponding application from a plurality of registered applications based on a touch angle or pressure with respect to the area-type fingerprint sensor 11A. For example, the user name, the registered fingerprint image, the touch angle, and the application to be activated may be stored in the fingerprint related information storage unit 15 in association with each other, and the application corresponding to the touch angle may be activated.

  Further, the predetermined process described above is a process of connecting to a corresponding website from a plurality of registered websites based on the touch angle or pressure on the area-type fingerprint sensor 11A. Good. For example, the user name, the registered fingerprint image, the touch angle, and the website to be connected may be stored in the fingerprint related information storage unit 15 in association with each other and connected to the website corresponding to the touch angle.

(Example 2)
A second embodiment of the information processing apparatus 1 configured as shown in FIG. 1 will be described. In the second embodiment, a line-type fingerprint sensor 11B is used as the fingerprint sensor 11, the operation parameter is the finger sliding direction with respect to the line-type fingerprint sensor 11A, and the predetermined process is a corresponding application activation process. The case will be described.

  FIG. 7 is a schematic perspective view illustrating an external configuration of the information processing apparatus 1 according to the second embodiment. 7, parts having the same functions as those in FIG. 2 are denoted by the same reference numerals, and only different points will be described. In FIG. 7, a line-type fingerprint sensor 11 </ b> B is disposed on the surface of the first housing 20 on the side of the touch pad 22. When performing the fingerprint authentication, the user can perform the fingerprint authentication by sliding the finger forward (upward in the Y axis) or backward (downward in the Y axis) with respect to the line-type fingerprint sensor 11B. .

  FIG. 8 is an explanatory diagram for explaining an example of the relationship between the finger sliding direction and the fingerprint image in the line-type fingerprint sensor 11B. In FIG. 8A, FIG. 8A shows a case where a finger is slid forward with respect to the line-type fingerprint sensor 11B, and FIG. It shows the case of sliding.

  As shown in FIG. 8A, when a finger is pressed against the line fingerprint sensor 11B and slid forward, for example, the partial image 101 at the tip of the fingerprint and the fingerprint image are read in the reading order of the line fingerprint sensor 11B. Three images of the intermediate partial image 102 and the rear end partial image 103 are read. In this case, since the connection relation of the fingerprints is the partial images 101, 102, and 103, it is determined that the sliding direction is the front, and for example, the fingerprint image 100 is generated by combining the partial images 101, 102, and 103 in this order. it can.

  Further, as shown in FIG. 8B, when a finger is pressed against the line fingerprint sensor 11B and slid backward, for example, the partial image 111 at the rear end of the fingerprint in the reading order of the line fingerprint sensor 11B. And a partial image 112 of the middle part of the fingerprint and a partial image 113 of the front end part are read. In this case, since the connection relation of the fingerprints is the partial images 113, 112, and 111, it is determined that the sliding direction is backward, and for example, the fingerprint image 100 can be generated by combining the partial images 113, 112, and 111 in this order. it can.

  The line-type fingerprint sensor 11B reads a plurality of fingerprints of a finger that slides in one direction at regular intervals, and outputs a plurality of partial images of the read fingerprints to the determination unit 12 in the order of reading. The determination unit 12 determines the connection relationship of the fingerprint lines of the partial images of the plurality of fingerprints input in the reading order from the line-type fingerprint sensor 11B, determines the sliding direction of the finger from the connection relationship, and correct connection relationship To synthesize a plurality of fingerprint partial images to generate a fingerprint image.

  The fingerprint related information storage unit 15 stores a user name, a registered fingerprint image of the user, a finger sliding direction with respect to the line-type fingerprint sensor 11B, and an application to be activated in association with each other. The user can register or change an application corresponding to a user name, a fingerprint image, and a slide direction by operating the UI.

  FIG. 9 is a flowchart for explaining an example of processing for activating a corresponding application in accordance with the finger sliding direction with respect to the line-type fingerprint sensor 11B. In FIG. 9, the line-type fingerprint sensor 11B reads a plurality of fingerprints of a finger that slides in one direction at regular intervals, and outputs a plurality of partial images of the read fingerprints to the determination unit 12 in the reading order (step S11). The determination unit 12 determines the connection relationship of the fingerprint lines of the partial images of the plurality of fingerprints input in the reading order from the line-type fingerprint sensor 11B, determines the sliding direction of the finger from the connection relationship, and correct connection relationship In step S12, a plurality of fingerprint partial images are combined to generate a fingerprint image. The discriminating unit 12 outputs the combined fingerprint image to the collating unit 13 and outputs the discriminated slide direction to the processing unit 14. The collating unit 13 collates the fingerprint image input from the discriminating unit 12 with the registered fingerprint image stored in the fingerprint related information storage unit 15, and determines whether or not they match (step S13).

  When the fingerprint image input from the determination unit 12 and the registered fingerprint image stored in the fingerprint related information storage unit 15 match, the processing unit 14 performs a login process with the user name corresponding to the registered fingerprint image. At the same time, the application corresponding to the slide direction determined by the determination unit 12 is activated by referring to the fingerprint related information storage unit 15 (step S14). The collating unit 13 may display an error message when the fingerprint image input from the line-type fingerprint sensor 11B does not match the registered fingerprint image stored in the fingerprint related information storage unit 15.

  Here, the login process and the process of starting the application are performed. However, in the logged-in state, the finger is slid with respect to the line-type fingerprint sensor 11B, and the corresponding application according to the slide direction. May be activated.

  FIG. 10 is a diagram for describing a specific example of processing for starting a corresponding application in accordance with the sliding direction of the finger with respect to the line-type fingerprint sensor 11B. In FIG. 10, when Mr. A has set (registered) activation of the mail application when the sliding direction with respect to the U-line type fingerprint sensor 11B is forward, and activation of the browser application when the sliding direction is backward. An example will be described. In FIG. 5, (A) shows a case where Mr. A slides the line-type fingerprint sensor 11B forward, and (B) shows a case where Mr. A slides the line-type fingerprint sensor 11B backward. Show.

  In FIG. 10, the fingerprint related information storage unit 15 stores the user name A, Mr. A's registered fingerprint image, the slide direction (front and back), and the application to be activated (mail application, browser application) in association with each other. Yes. In the example shown in FIG. 10, a mail application is registered in front of the sliding direction, and a browser application is registered in the rear of the sliding direction. In addition, you may display a home screen, without starting an application. For example, in the example illustrated in FIG. 10, for Mr. B, activation of the mail application is registered when the slide direction is forward, and application is not activated (displays the home screen) when the slide direction is backward.

  When Mr. A slides his / her finger forward with respect to the line-type fingerprint sensor 11B, the line-type fingerprint sensor 11B reads a plurality of fingerprints at regular intervals, and reads a plurality of partial images of the read fingerprints in the reading order. It outputs to the discrimination means 12. The discriminating means 12 judges the connection relation of the fingerprint lines of the partial images of the plurality of fingerprints inputted in the reading order, judges the finger slide direction as the front from the connection relation, and also judges the plurality of fingerprints with the correct connection relation. Are combined to generate a fingerprint image. The collation unit 13 collates the fingerprint image input from the determination unit 12 and the registered fingerprint image of Mr. A stored in the fingerprint related information storage unit 15. When the collation matches, the processing unit 14 performs the login process with the user name A, and after logging in, since the slide direction determined by the determination unit 12 is the forward direction, the fingerprint related information storage unit 15 is referred to Start the mail app that corresponds to the direction. For example, the processing unit 14 displays a login screen and a mail application screen on the display unit 31.

  Similarly, when Mr. A slides his / her finger backward with respect to the line-type fingerprint sensor 11B, the line-type fingerprint sensor 11B reads a plurality of fingerprints at regular intervals and reads a plurality of partial images of the read fingerprint. The data are sequentially output to the determination unit 12. The discriminating means 12 judges the connection relation of the fingerprint lines of the partial images of the plurality of fingerprints inputted in the reading order, judges the finger sliding direction as the rear from the connection relation, and also determines the plurality of fingerprints with the correct connection relation. Are combined to generate a fingerprint image. The collation unit 13 collates the fingerprint image input from the determination unit 12 and the registered fingerprint image of Mr. A stored in the fingerprint related information storage unit 15. If the collation matches, the processing means 14 performs the login process with the user name A, and since the slide direction determined by the determination means 12 is backward, the fingerprint related information storage unit 15 is referred to correspond to the backward direction. Start the browser application that you want to use. For example, the processing means 12 displays a login screen and a browser application screen on the display unit 31.

  Note that the line-type fingerprint sensor 11B and / or the discriminating means 12 may be provided with a function for detecting the finger slide speed with respect to the line-type fingerprint sensor 11, and the above-described operation parameter may be used as the finger slide speed. For example, when the slide speed V in a predetermined slide direction (for example, forward direction) is 0 <V ≦ V1, the mail application is activated, and the slide speed V in the predetermined slide direction (for example, forward direction) is V1 <V. In this case, a browser application may be activated.

  Further, the predetermined process described above is a login process with a corresponding user name from among a plurality of registered user names based on the slide direction or slide speed with respect to the line-type fingerprint sensor 11. Good. For example, the fingerprint-related information storage unit 15 stores a registered fingerprint image, a slide direction or slide speed, and a corresponding user name in association with each other, and based on the slide direction or slide speed with respect to the line-type fingerprint sensor 11. The login process with the corresponding user name may be performed.

  Further, the predetermined process described above is a process of connecting to a corresponding website from a plurality of registered websites based on the slide direction or slide speed with respect to the line-type fingerprint sensor 11B. Also good. The fingerprint related information storage unit 15 stores a user name, a registered fingerprint image, a slide direction or slide speed, and a website to be connected in association with each other, and connects to a website corresponding to the slide direction or slide speed. Also good.

  FIG. 11 is a diagram illustrating a hardware configuration example of the information processing apparatus 1 according to the above-described embodiment and examples. The information processing apparatus 1 illustrated in FIG. 11 includes a CPU 131, a ROM 132, a memory 133, an HDD 134, a display unit 31, an input unit 23, a fingerprint sensor 11, a communication device 121, a battery 122, a DC-DC converter 123, an AC adapter 124, and the like. Each part is connected directly or indirectly via a bus.

  The fingerprint sensor 11 is, for example, an area-type fingerprint sensor 11 </ b> A or a line-type fingerprint sensor 11 </ b> B, and reads a fingerprint of a finger under the control of the CPU 131.

  The CPU 131 controls the entire information processing apparatus 100 by the OS 134A stored in the HDD 134 connected via the bus, and controls the function of executing processing based on various programs stored in the HDD 134. The ROM 132 stores a BIOS (Basic Input / Output System: basic input / output system) 32a.

  The memory 133 is composed of a cache memory and a RAM, and is a writable memory used as a work area for writing processing data of the execution program as a read area for the execution program of the CPU 131.

  The HDD 134 stores programs, data, and the like such as an OS 134A for controlling the entire information processing apparatus 1, various drivers 134B for operating hardware of peripheral devices, a utility program 134C, a mail application 134D, and a browser application 134E. It has the function to do.

  The display unit 31 includes, for example, a liquid crystal display (LCD), an organic EL (Organic Electro-Luminescence) panel, and the like, and has a function of displaying various types of information under the control of the CPU 131. The communication device 141 is a unit for performing communication via a network under the control of the CPU 131.

  The input unit 23 is a user interface device for performing user input. The keyboard unit 21 includes various keys for inputting characters, commands, and the like, moves a cursor on the screen, and displays various menus. A touch pad 22 or the like for selection.

  The AC adapter 124, the battery 122, and the DC / DC converter 123 constitute a power supply circuit, and supply power to each unit under the control of the CPU 131.

  In the configuration of FIG. 11, for example, the CPU 131 executes the program stored in the HDD 134, thereby realizing the functions of the determination unit 12, the collation unit 13, and the processing unit 14 of FIG. Fifteen functions can be realized.

DESCRIPTION OF SYMBOLS 1 Information processing apparatus 11 Fingerprint sensor 12 Discriminating means 13 Collating means 14 Processing means 15 Fingerprint related information storage part 20 1st housing | casing 21 Keyboard apparatus 22 Touchpad 23 Input part 30 2nd housing | casing 31 Display part 40 Hinge 121 Communication Device 122 Battery 123 DC-DC converter 124 AC adapter 131 CPU
132 ROM
133 Memory 134 HDD

Claims (9)

A fingerprint sensor that reads the fingerprint of the finger;
Discrimination means for discriminating operation parameters of the finger with respect to the fingerprint sensor;
Collation means for collating a fingerprint read by the fingerprint sensor with a registered fingerprint;
A processing unit that executes a predetermined process based on the operation parameter determined by the determination unit when the verification unit matches the verification unit;
An information processing apparatus comprising:   The said predetermined process is a login process with a corresponding user name from a plurality of registered user names based on the operation parameter determined by the determination unit. Information processing device.   The information according to claim 1, wherein the predetermined process is a process of starting a corresponding application from a plurality of registered applications based on the operation parameter determined by the determination unit. Processing equipment.   The said predetermined process is a connection process to a corresponding website from a plurality of registered websites based on the operation parameter determined by the determination means. Information processing device. The fingerprint sensor is an area type fingerprint sensor,
The information processing apparatus according to claim 1, wherein the operation parameter is an angle or a pressure of a finger touched with respect to the area type fingerprint sensor. The fingerprint sensor is a line type fingerprint sensor,
The information processing apparatus according to claim 1, wherein the operation parameter is a finger sliding direction or a finger sliding speed with respect to the line-type fingerprint sensor.   The information processing apparatus according to claim 1, wherein the operation parameter is an operation count for the fingerprint sensor within a predetermined time. Reading the fingerprint of the finger with the fingerprint sensor;
A discriminating step for discriminating operation parameters of the finger with respect to the fingerprint sensor;
A collation process for collating a fingerprint read by the fingerprint sensor with a registered fingerprint;
A process step of executing a predetermined process based on the operation parameter determined in the determination step when the verification is matched in the verification step;
A computer-executable program for the computer to execute. Reading the fingerprint of the finger with the fingerprint sensor;
A discriminating step for discriminating operation parameters of the finger with respect to the fingerprint sensor;
A collation process for collating a fingerprint read by the fingerprint sensor with a registered fingerprint;
A process step of executing a predetermined process based on the operation parameter determined in the determination step when the verification is matched in the verification step;
An information processing method comprising:

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