JP5778100B2 - Input information authentication apparatus and apparatus program - Google Patents

Description

  The present invention relates to an input information authentication apparatus that uses position information for an image as authentication information for authentication, and a program for the apparatus.

  As a technique to prevent the authentication information from being stolen when inputting, narrowing the viewing angle of the display screen or displaying the input number with "*" mark etc. to indicate only the number of input digits Has been done.

  In addition, as a PIN code input device that allows a user to input a PIN number using a numeric keypad from a terminal such as a financial automatic machine (ATM), an input numeric keypad screen and a fake input numeric keypad screen are displayed, and a dummy number is displayed on the PIN number. In some cases, the password is prevented from being stolen even when the movement of the input hand is seen by being inserted (see, for example, Patent Document 1).

  In addition, by using handwriting information in the handwritten input on the touch panel screen by the user as authentication information, the user can be authenticated regardless of whether or not the character input for authentication is known to a third party. An authentication method to perform is known (see, for example, Patent Document 2).

Japanese Patent No. 2985888 JP 2007-299226 A

  However, the above-described conventional technology for preventing snooping such as Patent Document 1 assumes that a third party is located at some distance away, such as a financial automatic machine (ATM), for example. It wasn't even taken into account even when it was seen from a distance by a third party. That is, information indicating whether the user wants to input dummy input or authentication information is presented on a fake input numeric keypad or the like. For this reason, for example, when the input screen itself is viewed as well as the movement of the input user's hand, such as over the shoulder of the input user or a hidden camera, which input is dummy As a result, the authentication information may be known.

  In addition, the signature authentication as described in Patent Document 2 described above has no problem even if the character to be input for authentication is known, but there is an amount of information that can be authenticated in the locus information of the input position on the screen as a handwritten signature. Because it is necessary to include the characters, it was necessary to fill in the characters including the amount of information capable of authenticating the handwriting with a stable posture. For this reason, for example, when operating the mobile information terminal while standing or when operating while sitting in a train, it is not suitable for easy authentication.

  The present invention has been made in view of such a situation, and it is possible to perform authentication by simple position input, and still when a hand and an input screen are viewed by a third party during an authentication information input operation. However, it is an object of the present invention to provide an input information authentication device and a program for the device that can make it difficult to guess the authentication information.

In order to achieve such an object, the input information authentication apparatus according to the present invention inputs a position in the displayed image with respect to the displayed image, and the information corresponding to the position matches the authentication information stored in advance. An input information authentication device for performing authentication for determining whether or not to perform, in order to indicate how many times of operations corresponding to a predetermined number of position input operations for authentication should be adopted as authentication information Authentication auxiliary information used, storage means for storing authentication information, operation order number for performing authentication auxiliary information input operation, and order relationship generation for generating an order relationship between authentication information input operations And authentication means and authentication auxiliary information are stored in the storage means as information indicating a position range including a predetermined input error range. Using the order relation generated by the generating means, the number of operation order of the matching target, to determine the operational sequence number that does not match the target, the order relation generated by the order relation generating means, authenticating the authentication auxiliary information In the case of the order relationship that is input before the information, when position matching that matches within the position range of the authentication auxiliary information is performed, the number of operation orders in which the position input has been performed and the order relationship generating means The order relation generated by the order relation generating means is configured so that the position input in the operation order number of the authentication information determined based on the order relation is used as the collation target and the position input in the other operation order number is not used as the collation target. In the case of the order relationship in which the authentication information is input before the authentication auxiliary information, if position matching that matches the position within the position range of the authentication information is performed, Using the position input in the operation order number of the authentication auxiliary information determined based on the order number generated by the input relation and the order relation generated by the order relation generation means as the verification target, collate the position input in other operation order numbers It is not used as a target .

Further, the program of the input information authentication device according to the present invention inputs a position in the displayed image and checks whether or not the information corresponding to the position matches the authentication information stored in advance. Is an input information authentication apparatus program for performing authentication, which is a judgment of the above, and the input information authentication apparatus should adopt information corresponding to what number of operations in a predetermined number of position input operations for authentication as authentication information Authentication auxiliary information used for indicating the authentication information, and storage means for storing the authentication information, and the computer has an operation order number for performing the authentication auxiliary information input operation and an operation order number for performing the authentication information input operation. An order relation generation procedure for generating an order relation and a collation procedure are executed, and the authentication information and the authentication auxiliary information are information indicating a position range including a predetermined input error range. Stored in the storage means as the collation in the procedure, using the order relation generated by the order relation generation step, the number of operation order of the matching target, to determine the operational sequence number that does not match the target, the order relation generation procedure When the position input that matches and matches within the position range of the authentication auxiliary information is performed, the position input is performed. The position input in the operation order number of the authentication information determined based on the order number generated by the order relation generation procedure and the order relation generation procedure is used as the verification target, and the position input in the other operation order number is not used as the verification target. If the order relation generated by the order relation generation procedure is an order relation in which authentication information is input before the authentication auxiliary information, When the position input that matches and matches is performed, the position input in the operation order number of the authentication auxiliary information determined based on the operation order number in which the position input is performed and the order relation generated by the order relation generation procedure is collated. It is characterized in that it is used as a target, and position input in other operation order numbers is not used as a verification target .

  As described above, according to the present invention, authentication can be performed by simple position input, and even if the hand and the input screen are viewed by a third party during the authentication information input operation, the authentication information Can be difficult to guess.

It is a block diagram which shows the structural example of the input information authentication apparatus 100 as the 1st Embodiment of this invention. It is a figure which shows the example of a setting of the coordinate system for recognition according to a registration position. It is a figure which shows the example of input of the key information and authentication information according to the displayed order relation. It is a flowchart which shows the operation example of the input information authentication apparatus 100 as 1st Embodiment. It is a block diagram which shows the structural example of the input information authentication apparatus 100 as 2nd Embodiment. It is a block diagram which shows the structural example of the input information authentication apparatus 100 as 3rd Embodiment. It is a flowchart which shows the operation example of the input information authentication apparatus 100 as 3rd Embodiment.

  Next, an embodiment to which an input information authentication apparatus and apparatus program according to the present invention are applied will be described in detail with reference to the drawings.

[First Embodiment]
A first embodiment of the present invention will be described.
As shown in FIG. 1, the input information authentication apparatus 100 according to the first embodiment includes a display input unit 110 such as a touch panel display, a display input control unit 121, a coordinate registration unit 122, and an order relation generation unit 123. The coordinate recognition unit 124, the key information matching unit 125, the recognition information matching unit 126, and a storage unit 130 that stores registered key information, authentication information, and the like.

  The display input unit 110 displays a pre-registered image such as a photograph on a screen as a touch panel, detects a contact position on the touch panel with a user's finger, an input pen, or the like, and based on position information of the contact position The input position information for the displayed image is acquired.

  The display input control unit 121 performs display control of an image or the like displayed on the display input unit 110 and control to receive input position information based on a contact position on the display input unit 110 as an input signal.

When registering key information and authentication information, the coordinate registration unit 122 sets a recognition coordinate system to be set as will be described later in accordance with each registration point such as a start point and an end point that have been registered and input to the registration point information. The information is stored in the storage unit 130 in association.
The key information is used to indicate how many times the input content in a predetermined number of key input operations for authentication is adopted for verification with the authentication information based on the order relationship with the authentication information.

  The order relation generating unit 123 randomly generates an order relation in which key information and authentication information are to be input when a predetermined number of input operations for authentication are performed. In the random generation of the order relation by the order relation generation unit 123, after the input operation for authentication is performed on the display image of the display input unit 110 and the authentication is OK, the input operation for authentication is performed next. This is done each time an input screen for starting is displayed.

  The coordinate recognizing unit 124 receives a start point, an end point, or a position of a stroke as a locus of movement of the input position from the contact position of the display input unit 110 on the touch panel and the recognition coordinate system set by the coordinate registration unit 122. Recognize the input coordinates at the selected point.

  The key information collating unit 125 collates key information registered in advance and stored in the storage unit 130 with coordinate information based on the input contact position.

  The authentication information collation unit 126 collates the authentication information registered in advance and stored in the storage unit 130 with the coordinate information based on the input contact position.

  With this configuration, the input information authentication device 100 according to the present embodiment first receives registration input of key information and authentication information for authentication as a contact position with respect to an image displayed on the display input unit 110. This contact position is registered and input as a locus or point defined by the start point and the end point. In addition, with respect to the registration points such as the start point and the end point, the coordinate registration unit 122 sets a recognition coordinate system for recognizing the contact input position of the user at the time of the input operation for authentication as illustrated in FIG. To do.

  After the registration is performed by the user in this way, when a predetermined number of input operations for authentication are performed as illustrated in FIG. 3, the coordinate input is performed on the contact input position for the image displayed on the touch panel of the display input unit 110. It is recognized as input coordinate information in the recognition coordinate system by the unit 122. Then, the key information and the authentication information are collated by the coordinate information (collation means).

  FIG. 2 shows an example of setting the recognition coordinate system according to the registration point by the coordinate registration unit 122. In the example of FIG. 2, a case where a linear stroke defined by a start point and an end point is registered as key information or authentication information is shown.

  When key information or authentication information for authentication is registered in the input information authentication apparatus 100 of the present embodiment, the coordinate registration unit 122 registers a start point, an end point, or a registration point by a point that is registered and input as key information and authentication information. Set the recognition coordinate system corresponding to each.

  For example, even if the registration point is input as the nose of a person in the display image, when the user performs an input operation for authentication, the contact input position with the finger or input pen by the user is registered and input. It is difficult to exactly match the position of the point. That is, in order to collate key information and authentication information based on the position of the registration point and the input position in the image, it is necessary to consider a certain amount of error as the input position for contact input by the movement of a human hand.

  The coordinate registration unit 122 sets a recognition coordinate system so that a range that can be within an allowable range as an error of the input position is recognized as the same coordinate position. For this reason, the recognition coordinate system by the coordinate registration unit 122 has a predetermined roughness that allows the error tolerance range to be the same, and is set as an xy coordinate system in which the x axis and the y axis are orthogonal.

  Further, the coordinate registration unit 122 sets the origin position of the xy coordinate system in accordance with the position of the registration point so that the registration point is arranged at the intersection of the diagonal lines in the square or rectangle range having the same coordinate information in the xy coordinate system. Correct and set the recognition coordinate system.

For this reason, the coordinates are set so that a circle whose radius is the maximum distance r that can be regarded as an error in the input position centered on the intersection of the above diagonal lines is exactly within the short side of the square or rectangle recognized as the same coordinate position. The registration unit 122 sets a recognition coordinate system. That is, the recognition coordinate system is set so that the length of one side of the square or the short side of the rectangle is 2r.
The maximum distance r allowed as the input position error may be set in advance as an error allowable range, or may be changed by setting by the user.

  In this way, the recognition coordinate system is set so that a square or rectangular range having the same coordinate information in the xy coordinate system is a position range including a predetermined input error range centered on the registration point. In addition, the recognition coordinate system is set for the image so that any of predetermined four corners of the displayed image is included in the position range set as the origin coordinates.

In this manner, the coordinate registration unit 122 sets a recognition coordinate system for each of the registration points that are registered and input as the start point, the end point, or the points that constitute the key information and the authentication information. This recognition coordinate system is set as described above with a roughness having a position range including a predetermined input error range as the same coordinate position, and the coordinate registration unit 122 uses the roughness coordinate system to make each registration. The input position input as a point is converted into coordinate information.
Then, the coordinate registration unit 122 stores the information of each registration point in the storage unit 130 in association with the recognition coordinate system set for the registration point.

  FIG. 3 shows a display example of images and order relations on the touch panel of the display input unit 110 and a position input example in the case of authentication OK. In the example of FIG. 3, the case where the stroke registered in the example of FIG. 2 is key information is shown.

  It is assumed that the key information and the authentication information are registered in advance in the input information authentication apparatus 100 as described above. In order to make authentication OK with an input for performing authentication, the user performs a predetermined number of input operations including the key information and authentication information.

  Further, the order relationship in which the key information and the authentication information are to be input is randomly generated by the order relationship generation unit 123 and displayed on the display input unit 110. However, in the case of input after authentication NG, the same order relationship is displayed again on the display input unit 110.

  For example, the example of FIG. 3 shows a case where an order relationship is set in which authentication information is collated in the next position input operation when key information is input. The order relationship when the next position input operation of the key information is handled as authentication information is shown as “n = + 1” in the screen display example of FIG.

  As a display example of the order relation, for example, when the authentication information is collated with the next input operation of the key information, that is, the operation order number two times after the key information operation order number, the order relation is “n = +2 ". Further, when the authentication information is collated with the previous input operation of the key information input operation, that is, the operation order number one time before the key information operation order number, the order relation is displayed as “n = −1”. The As described above, the order relation value is generated by the order relation generation unit 123 as an integer other than zero.

  In the input example of FIG. 3, a stroke of key information registered in advance is input by the first input operation. Since the order relationship between the key information and the authentication information is displayed as “n = + 1”, the authentication information is collated based on the second input position. For this reason, the predetermined number of inputs after the third time are all dummy inputs.

  In addition, when a stroke of key information registered in advance in the second position input operation is input, the order relation is displayed as “n = + 1”. Target for verification.

  In this way, since the order relationship is randomly generated and position input other than the input of the operation order number that is the target of verification of key information and authentication information is treated as a dummy input, the total number of position input operations for performing authentication That is, as the number of times of adding dummy inputs is increased, the user's memory load remains the same and the security strength can be improved. The example of FIG. 3 shows an example in which the number of input operations for authentication is three.

  Here, when a user performs a position input operation for a predetermined number of times for authentication in accordance with pre-registered key information and authentication information, the position is input to the touch panel from a close distance such as over the shoulder of the user. Suppose that a third party has seen the movement of the hand and the input screen. Furthermore, after that, it is assumed that the input information authentication device 100 of this embodiment has been obtained by the third party.

In this way, even if the third party inputs a stroke or a point at the same input position that he / she previously viewed on the touch panel of the input information authentication apparatus 100 of the present embodiment, the displayed order relationship becomes a different value. Therefore, it becomes authentication NG.
That is, in order to perform a position input operation for authentication after the authentication is OK, the order relation generation unit 123 randomly generates the order relation, and the generated order relation is displayed on the display input unit 110. The For this reason, even if a stroke or a point at the same position in the display image is input each time in the predetermined number of position input operations, the number of operation orders for checking the number of input operations with key information or authentication information is different. The authentication is not OK, but NG.

  Moreover, as long as it is authentication NG, the order relation generation unit 123 does not generate the order relation, and the same value is used as the order relation. Therefore, the order relation value coincides with the value of the order relation when the third party steals. The possibility is zero.

  In this way, even if a third party who steals an input operation for authentication OK at a close distance obtains the input information authentication apparatus 100 and tries to perform a replay attack at the same input position, the input content that was stolen is authenticated OK. It can not be. In this way, even when the operation and input screen of the hand performing the position input operation for authentication are viewed, high security can be realized without being authenticated.

  In addition, when the position input operation is performed a predetermined number of times for authentication and the authentication is NG, the wait time for input may be doubled at the time of the next position input operation. In this way, the wait time is doubled every time the authentication based on the position input becomes NG, so that it is possible to further improve the security against repeated replay attacks. Alternatively, the wait time may be increased exponentially every time the authentication becomes NG.

  Next, an operation example of the input information authentication apparatus 100 as the first embodiment will be described with reference to the flowchart of FIG. In the operation of the present embodiment described below, an image to be displayed on the screen at the time of an input operation for authentication is set in advance, and key information and authentication information are registered in the input information authentication apparatus 100 in advance as described above. I will do it.

  First, the order relation generation unit 123 randomly generates the order relation between the key information and the authentication information when receiving a predetermined number of position input operations for authentication as described above (step S1). The display input control unit 121 causes the display input unit 110 to display a display image when receiving a position input operation for authentication and the generated order relationship (step S2).

  Thus, when the display input unit 110 receives a predetermined number of position input operations for authentication, if the order relation generated in step S1 is n> 0 (step S3; Yes), the authentication information is stored after the key information. Because of the order relationship for the input operation, the coordinate recognition unit 124 converts the input position to the display input unit 110 into coordinate information in the key information recognition coordinate system (step S4).

  That is, if the key information is registered as a stroke as a movement trajectory, as illustrated in FIG. 2, first, the input position is converted into coordinate information in the recognition coordinate system for the start point of the key information, and the input position Is converted into coordinate information in the recognition coordinate system for the end point of the key information. If the key information is registered as a point, the input position is converted into coordinate information in the recognition coordinate system for the point.

  The key information collating unit 125 collates whether the coordinate information thus converted by the coordinate recognizing unit 124 matches the coordinate information registered in advance as the key information (step S5). That is, when the key information is registered in advance as a stroke, the key information collating unit 125 includes the start point and end point coordinate information constituting the key information, and the start point and end point coordinate information converted by the coordinate recognition unit 124. Check whether or not match. When the key information is registered in advance as a point, the key information matching unit 125 checks whether the coordinate information of the registered point matches the coordinate information converted by the coordinate recognition unit 124. .

  If there is an input that matches the key information, the position input operation to be verified against the authentication information is determined based on the operation order number of the input operation of the key information and the order relationship generated in step S1. The number of operation orders is determined. When the coordinate recognizing unit 124 thus determines the operation order number to be verified against the authentication information, the coordinate recognition unit 124 converts the input position to the display input unit 110 with the operation order number into coordinate information in the recognition information recognition coordinate system ( Step S6).

  That is, if the authentication information is registered as a stroke as a movement trajectory, as illustrated in FIG. 2, first, the input position is converted into coordinate information in the recognition coordinate system for the starting point of the authentication information, and the input position Is converted into coordinate information in the recognition coordinate system for the end point of the authentication information. If the authentication information is registered as a point, the input position is converted into coordinate information in the recognition coordinate system for the point.

The authentication information collating unit 126 collates whether the coordinate information thus converted by the coordinate recognizing unit 124 matches the coordinate information registered in advance as the authentication information (step S7). That is, when the authentication information is registered in advance as a stroke, the authentication information collating unit 126 includes the start point and end point coordinate information constituting the authentication information, and the start point and end point coordinate information converted by the coordinate recognition unit 124. Check whether or not match. When the authentication information is registered in advance as a point, the authentication information matching unit 126 checks whether or not the coordinate information of the registered point matches the coordinate information converted by the coordinate recognition unit 124. .
If they match, authentication is OK, and in other cases authentication NG.

  In addition, when the display input unit 110 receives a predetermined number of position input operations for authentication, if the order relation generated in step S1 is n <0 (step S3; No), authentication is performed before the key information. Since the information is in the order of input operation, the coordinate recognition unit 124 converts the input position to the display input unit 110 into coordinate information in the recognition information recognition coordinate system (step S8).

  That is, if the authentication information is registered as a stroke as a movement trajectory, as illustrated in FIG. 2, first, the input position is converted into coordinate information in the recognition coordinate system for the starting point of the authentication information, and the input position Is converted into coordinate information in the recognition coordinate system for the end point of the authentication information. If the authentication information is registered as a point, the input position is converted into coordinate information in the recognition coordinate system for the point.

  The authentication information collating unit 126 collates whether or not the coordinate information thus converted by the coordinate recognizing unit 124 matches the coordinate information registered in advance as the authentication information (step S9). That is, when the authentication information is registered in advance as a stroke, the authentication information collating unit 126 includes the start point and end point coordinate information constituting the authentication information, and the start point and end point coordinate information converted by the coordinate recognition unit 124. Check whether or not match. When the authentication information is registered in advance as a point, the authentication information matching unit 126 checks whether or not the coordinate information of the registered point matches the coordinate information converted by the coordinate recognition unit 124. .

  If there is an input that matches the authentication information, the position input operation to be verified against the key information is determined based on the operation order number of the input operation of the authentication information and the order relationship generated in step S1. The number of operation orders is determined. When the coordinate recognizing unit 124 thus determines the operation order number to be the key information collation target, the coordinate recognition unit 124 converts the input position to the display input unit 110 at the operation order number into coordinate information in the key information recognition coordinate system ( Step S10).

  That is, if the key information is registered as a stroke as a movement trajectory, as illustrated in FIG. 2, first, the input position is converted into coordinate information in the recognition coordinate system for the start point of the key information, and the input position Is converted into coordinate information in the recognition coordinate system for the end point of the key information. If the key information is registered as a point, the input position is converted into coordinate information in the recognition coordinate system for the point.

The key information collating unit 125 collates whether or not the coordinate information thus converted by the coordinate recognizing unit 124 matches the coordinate information registered in advance as key information (step S11). That is, when the key information is registered in advance as a stroke, the key information collating unit 125 includes the start point and end point coordinate information constituting the key information, and the start point and end point coordinate information converted by the coordinate recognition unit 124. Check whether or not match. When the key information is registered in advance as a point, the key information matching unit 125 checks whether the coordinate information of the registered point matches the coordinate information converted by the coordinate recognition unit 124. .
If they match, authentication is OK, and in other cases authentication NG.

As described above, in the above-described first embodiment, the value of the order relation between the key information and the authentication information when performing the position input operation for authentication changes randomly every time the authentication is OK. For example, even if a third party who steals the hand and the input screen at the time of input again inputs a stroke or a point with the same input position with respect to the display image, the authentication is not OK.
As described above, even if the key information and the authentication information are the same, the position input operation for making the authentication OK changes every time the input is performed, so that it functions substantially like a one-time password. For this reason, sufficiently high security can be ensured as a countermeasure against a case where the input hand movement and the display screen are stolen from a third party.

  In addition, the value of the order relation between the key information and the authentication information in the position input operation for authentication is randomly generated at the next input when the authentication is OK. In the case of authentication NG, the value is also generated at the next position input operation. Displayed with the same value. For this reason, the probability that the values of the order relationship coincide by chance can be made zero, and higher security can be realized.

Further, in the present embodiment, key information and authentication information are registered for an image displayed on the display input unit 110, and a random number of order input operations are performed in a predetermined number of position input operations for authentication. Based on authentication.
For this reason, in the input information authentication apparatus 100 of this embodiment, the user can perform highly secure authentication input including dummy input only by storing the key information and authentication information for the display image.

  Further, in this embodiment, as the position input operation for a predetermined number of times for authentication, the position input operation for the display image is performed by a human hand, so the input position at the time of registration for the display image and the position input operation for authentication It is difficult to request the user to exactly match the input position at the time.

For this reason, in the above-described embodiment, the coordinate registration unit 122 recognizes the recognition coordinate system for recognition so as to recognize the same coordinate information up to a predetermined error tolerance when registering the key information or the authentication information. Set for each registration point registered and entered as key information or authentication information. Then, as coordinate information in the recognition coordinate system, information on each registration point constituting key information and authentication information is stored in the storage unit 130.
Also, when collating with key information or authentication information for a predetermined number of position input operations for authentication, coordinate information recognized in the recognition coordinate system set in this way and each registration registered in advance Check the coordinate information of the point.

For this reason, according to the above-described embodiment, the error of the input position between the time of registration and the position input operation for authentication is absorbed up to a predetermined error allowable range, and the key information or the authentication is performed. Information can be collated.
For this reason, even if authentication is performed using a position input operation performed by a human hand with a finger or an input pen on a display image, an operation that does not cause a sense of incongruity to the user without excessively requiring input position accuracy. It can be performed.

  In addition, as the registration points registered and input as key information and authentication information, the example in FIGS. 2 and 3 described above is described by taking the center of the face in the photograph as the display image as an example. If so, there may be many feature points such as eyebrows, eyes, ears, mouth, shoulders, and crown. For this reason, the key information and the authentication information can be configured by combining various variations, and the memory load on the user can be reduced while performing the authentication including the dummy input.

In addition, in the above-described predetermined number of position input operations for authentication, there is no feature that an input operation with a specific operation order number corresponds to key information or authentication information. For this reason, even if the hand and the input screen are viewed from the third party during the input operation, it is extremely difficult for the third party to infer the key information and the authentication information.
Furthermore, it is possible to have sufficient security against replay attacks such as repeated retries.

  In addition, since the input other than the displayed key information and authentication information is automatically set as a dummy input, even if the number of dummy inputs is increased to 2 or more, the load of memory by the user The input information authentication device 100 according to the above-described embodiment can be realized by the same processing. Of course, if the number of dummy inputs is further increased, the security strength can be further improved.

As described above, in the embodiment of the present invention, it is not determined whether the input is dummy input or authentication information or key information depending on how many times the input is made. Therefore, it is possible to prevent a third party who does not know the key information or the authentication information from identifying which input is a dummy.
In addition, since the order relationship between the key information and the authentication information when the position input operation is performed a predetermined number of times for authentication changes randomly every time authentication is OK, sufficient security strength against replay attack is also obtained. Can be given.
For this reason, even if it is a case where the hand and display screen at the time of input are seen from the third party, the input method used as authentication OK can be made difficult to guess.

  In particular, when the input information authentication device 100 of the present embodiment is a touch panel type portable information terminal, it is conceivable to input authentication information in a train or in a crowded area. The display screen may be seen by a third party from a close distance, such as over the shoulder. In this way, even when a user who is performing a series of position input operations for authentication and a display screen can be seen, an input that is an authentication OK based on key information or authentication information can be obtained from the viewed information. It is possible to provide an input information authenticating apparatus excellent in security in which it is difficult to analogize the method.

In particular, in the case of a beginner or an elderly person, it is conceivable that the speed of hand movement is very slow even when a position input operation is performed on a display image. Therefore, when viewed by a third party, hand movements and display images may be easily stored.
According to the above-described embodiment, even in such a case, sufficiently high security can be ensured as described above.

In the first embodiment described above, each time the position input operation is performed on the display image, the coordinate recognition unit 124 performs coordinate recognition in the recognition coordinate system, and collates with the key information and the authentication information. However, the present invention is not limited to this configuration, and a configuration may be used in which collation with each of the key information and the authentication information is performed after all of the predetermined number of position input operations for authentication are completed.
In this case, for all of the input positions obtained by a predetermined number of position input operations, the coordinate information by the key information recognition coordinate system is collated with the registered key information as described above, and the authentication information is recognized. The collation between the coordinate information by the coordinate system and the registered authentication information is performed as described above. Then, the order relationship between the number of position input operations that match the key information and the number of position input operations that match the authentication information and the order number of the position input operations that match the authentication information is the order relationship. It is verified whether the order relation generated by the generation unit 123 matches. Thus, authentication based on pre-registered key information and authentication information can be realized in the same manner as in the first embodiment described above.

In addition, when the configuration is such that the key information and the authentication information are collated after completion of the predetermined number of position input operations for authentication in this way, the key information and the authentication information are collated with each other. The present invention can be realized in the same manner even when the apparatus is used.
In this case, the server device connected to the input information authentication device 100 via a network by wire, wireless, or a combination thereof, the coordinate registration unit 122, the order relationship generation unit 123, and the coordinate recognition in the above-described embodiment. Unit 124, key information matching unit 125, recognition information matching unit 126, and storage unit 130 that stores registered key information, authentication information, and the like. Then, the order relation generated by the server device is transmitted to the input information authentication device 100 and displayed on the display input unit 110. When the position input operation is performed a predetermined number of times for authentication due to the order relationship, the input content is transmitted to the server device, and the server device collates with the key information and the authentication information as described above.
Thus, authentication based on pre-registered key information and authentication information can be realized in the same manner as in the first embodiment described above.

[Second Embodiment]
Next, a second embodiment of the present invention will be described.
In the second embodiment, the registered key information and authentication information are encrypted after being encrypted with a one-way function such as a hash function, and in this state, verification for a position input operation by a user can be performed. .
Description of the same components as those in the first embodiment described above will be omitted.

  As shown in FIG. 5, the input information authentication device 100 as the second embodiment includes a display input unit 110, a display input control unit 121, a coordinate registration unit 122, and the same as those of the first embodiment described above. In addition to the order relation generation unit 123, the coordinate recognition unit 124, and the storage unit 130, the configuration includes an encryption registration unit 140, an encryption key information verification unit 141, and an encryption authentication information verification unit 142. Is done.

  When key information and authentication information are registered, the coordinate registration unit 122 sets a recognition coordinate system according to each registration point such as a start point and an end point that are registered and input, and determines the input position of each registration point. It is converted into coordinate information in the recognition coordinate system. The encryption registration unit 140 encrypts the coordinate information thus converted by the coordinate registration unit 122 with a one-way function such as a hash function, and stores it in the storage unit 130.

  The encryption key information collating unit 141 is a value obtained by encrypting the coordinate information recognized by the coordinate recognizing unit 124 using the above-described one-way function when a predetermined number of position input operations for authentication are performed. Are compared with the encrypted key information.

  The encrypted authentication information matching unit 142 is a value obtained by encrypting the coordinate information recognized by the coordinate recognition unit 124 using the recognition coordinate system with the one-way function when a predetermined number of position input operations for authentication are performed. And the encrypted authentication information.

  Next, an operation example of the input information authentication apparatus 100 as the present embodiment will be described. For encryption with a one-way function in the following operation example, HMAC or the like of a hash function can be used.

First, when key information and authentication information are registered by the user, the coordinate registration unit 122 recognizes each of the start point, end point, or point input as the contact position with respect to the image, as in the first embodiment described above. Sets the coordinate system for the system and converts the input position into coordinate information.
Then, the encryption registration unit 140 hashes the coordinate information of each registration point converted by the coordinate registration unit 122 and stores it in the storage unit 130.

  Further, when a position input operation is performed a predetermined number of times for authentication, the order relation generation unit 123 randomly generates the order relation by the same operation as steps S1 to S2 in the flowchart of FIG. The control unit 121 causes the display input unit 110 to display images and order relationships.

  Similarly to the operation described above with reference to the flowchart of FIG. 4, if n> 0, the authentication information is input after the key information, and therefore the order relationship is first, and therefore step S4 of FIG. Similarly, the coordinate recognition unit 124 converts the input position into coordinate information in the recognition coordinate system for the key information. Then, as the collation in step S5, the encrypted key information collating unit 141 hashes the converted coordinate information, and collates whether or not it matches the hashed information about the key information.

  That is, when the key information is registered in advance as a stroke, the encryption key information collating unit 141 is converted by the coordinate recognition unit 124 from the hashed information of the coordinate information of the start point and end point constituting the key information. It is verified whether the hash information of the coordinate information of the start point and the end point matches. When the key information is registered in advance as a point, the encryption key information matching unit 141 has the hashed information of the coordinate information of the registered point and the hash of the coordinate information converted by the coordinate recognition unit 124. It is checked whether or not it matches with the digitized information.

  When there is an input that matches the key information, as in step S6 of FIG. 4 in the above-described embodiment, the coordinate recognition unit 124 determines the number of times that the key information has been input and the number of operations in step S1. Based on the generated order relationship, the number of operation orders to be a verification target of authentication information is determined, and the input position at the number of operation orders is converted into coordinate information in the recognition information recognition coordinate system.

  Then, as verification in step S7, the encrypted authentication information verification unit 142 has the hashed information of the coordinate information converted by the coordinate recognition unit 124 and the hashed information of the coordinate information registered in advance as the authentication information. Check whether they match.

That is, when the authentication information is registered in advance as a stroke, the encrypted authentication information matching unit 142 is converted by the coordinate recognition unit 124 from the hashed information of the start point and end point coordinate information constituting the authentication information. It is verified whether the hash information of the coordinate information of the start point and the end point matches. When the authentication information is registered in advance as a point, the encrypted authentication information matching unit 142 has the hashed information of the coordinate information of the registered point and the hash of the coordinate information converted by the coordinate recognition unit 124. It is checked whether or not it matches with the digitized information.
If they match, authentication is OK, and in other cases authentication NG.

  If n <0, the authentication information is input before the key information, and therefore the coordinate recognition unit 124 first performs authentication information as in step S8 of FIG. 4 in the above-described embodiment. The input position is converted into coordinate information in the recognition coordinate system for. Then, as verification in step S9, the encrypted authentication information verification unit 142 hashes the converted coordinate information, and verifies whether or not it matches the hashed information about the authentication information.

  That is, when the authentication information is registered in advance as a stroke, the encrypted authentication information matching unit 142 is converted by the coordinate recognition unit 124 from the hashed information of the start point and end point coordinate information constituting the authentication information. It is verified whether the hash information of the coordinate information of the start point and the end point matches. When the authentication information is registered in advance as a point, the encrypted authentication information matching unit 142 has the hashed information of the coordinate information of the registered point and the hash of the coordinate information converted by the coordinate recognition unit 124. It is checked whether or not it matches with the digitized information.

  When there is an input that matches the authentication information, as in step S10 of FIG. 4 in the above-described embodiment, the coordinate recognition unit 124 determines the number of times that the authentication information has been input and the operation order number in step S1. Based on the generated order relation, the number of operation orders to be collated with key information is determined, and the input position at the number of operation orders is converted into coordinate information in the key information recognition coordinate system.

  Then, as the collation in step S11, the encryption key information collating unit 141 has the hashed information of the coordinate information converted by the coordinate recognizing unit 124 and the hashed information of the coordinate information registered in advance as the key information. Check whether they match.

That is, when the key information is registered in advance as a stroke, the encryption key information collating unit 141 is converted by the coordinate recognition unit 124 from the hashed information of the coordinate information of the start point and end point constituting the key information. It is verified whether the hash information of the coordinate information of the start point and the end point matches. When the key information is registered in advance as a point, the encryption key information matching unit 141 has the hashed information of the coordinate information of the registered point and the hash of the coordinate information converted by the coordinate recognition unit 124. It is checked whether or not it matches with the digitized information.
If they match, authentication is OK, and in other cases authentication NG.

As described above, according to the above-described second embodiment, the same effects as those of the above-described first embodiment can be obtained, and each registration such as a start point and an end point that are registered and input in advance as key information and authentication information. For the points, the coordinate information recognized in the recognition coordinate system is encrypted after being encrypted with a one-way function such as a hash function and stored. For this reason, even if the input information authentication apparatus 100 is obtained by a third party, it is possible to protect against analysis of the stored information in the memory.
Nevertheless, even with a predetermined number of position input operations including dummy inputs similar to those in the first embodiment described above, the key information and the authentication information can be reliably verified. For this reason, higher security can be realized.

  Further, in the collation method of the second embodiment described above, collation can be performed with a much smaller amount of computation than when using an advanced calculation technique in which computation for collation is performed in an encrypted state. Therefore, even a computer having a relatively low processing capability such as a mobile terminal can be easily realized.

[Third Embodiment]
Next, a third embodiment of the present invention will be described.
The third embodiment shows another configuration example in which registered key information and authentication information are encrypted and stored after being encrypted with a one-way function such as a hash function, and in this state, verification for a position input operation by a user can be performed. Is.
Description of the same components as those in the first and second embodiments described above will be omitted.

  As shown in FIG. 6, the input information authentication apparatus 100 as the third embodiment includes a display input unit 110, a display input control unit 121, a coordinate registration unit 122, and the same as those in the second embodiment described above. In addition to the order relation generation unit 123, the coordinate recognition unit 124, the encryption registration unit 140, and the storage unit 130, an encryption collation unit 143 is provided.

  When key information and authentication information are registered, the coordinate registration unit 122 sets a recognition coordinate system according to each registration point such as a start point and an end point that are registered and input, and determines the input position of each registration point. It is converted into coordinate information in the recognition coordinate system. The encryption registration unit 140 concatenates the coordinate information thus converted by the coordinate registration unit 122 in a predetermined order, encrypts the concatenated number string with a one-way function such as a hash function, and stores the encrypted number string in the storage unit 130.

  When a predetermined number of position input operations for authentication are performed, the encryption verification unit 143 uses the coordinate recognition unit 124 for the number of key information operation orders for all patterns that can be input operations for key information and authentication information. A numeric string obtained by concatenating the converted coordinate information and the coordinate information converted by the coordinate recognition unit 124 in the number of operation orders of the authentication information is encrypted by the same one-way function as the coordinate registration unit 122. Then, the calculated hash value is compared with the hash value stored in the storage unit 130.

  Next, an operation example of the input information authentication apparatus 100 as the present embodiment will be described. For encryption with a one-way function in the following operation example, HMAC or the like of a hash function can be used.

First, when the user registers key information and authentication information in the input information authentication apparatus 100 according to the present embodiment, the start point and the end point input as the contact position with respect to the image, as in the first and second embodiments described above. Alternatively, for each of the points, the coordinate registration unit 122 sets a recognition coordinate system and converts the input position into coordinate information.
Then, the encryption registration unit 140 hashes a number string obtained by connecting the coordinate information of each registration point converted by the coordinate registration unit 122 in a predetermined order, and stores the hash in the storage unit 130.

  For example, the start point coordinates of the key information are (5, 5), the end point coordinates are (8, 6), the start point coordinates of the authentication information are (4, 3), and the end point coordinates are (3.6). In such a case, the encryption registration unit 140 stores the HMAC (55864336) obtained by hashing the concatenated numeric string 5586336 in the storage unit 130 as a value corresponding to the configuration information of the key information and the authentication information.

  Next, an operation example when a position input operation for authentication is performed on the input information authentication apparatus 100 according to the present embodiment will be described with reference to a flowchart of FIG.

  First, by the same operation as steps S1 to S2 in the flowchart of FIG. 4, the order relationship generation unit 123 randomly generates an order relationship, and the display input control unit 121 causes the display input unit 110 to display the image and the order relationship.

  When a position input operation is performed a predetermined number of times for authentication by the user, the coordinate recognition unit 124 converts the input position in each operation order number into coordinate information in the recognition coordinate system for key information, and also performs authentication. In the recognition coordinate system for information, the input position in each operation order number is converted into coordinate information (step S21).

Then, the encryption verification unit 143 concatenates the coordinate information in the operation order number corresponding to each of all possible patterns as a combination of the key information and the authentication information in the same predetermined order as in the registration by the encryption registration unit 140. Then, it is hashed (step S22). All the patterns are determined based on the order relation generated by the order relation generation unit 123. For example, if the order relation is “n = + 1” and the number of input operations is three as shown in FIG. ,
<Pattern 1> First time: key information, second time: authentication information <Pattern 2> Second time: key information, third time: authentication information There may be two patterns. The encryption verification unit 143 concatenates the coordinate information in the operation order number corresponding to each of the key information and the authentication information in the same predetermined order as the registration by the encryption registration unit 140, and hashs all the patterns.

  The encryption collation unit 143 collates each hash value calculated in this way with the hash value stored in the storage unit 130 by the encryption registration unit 140 (step S23). If there is a matching value by this matching, authentication is OK, and otherwise authentication NG.

  As described above, according to the above-described third embodiment, the same effects as those of the above-described second embodiment can be obtained, and each registration such as a start point and an end point registered and input in advance as key information and authentication information can be obtained. Since the coordinate information of the points is concatenated in a predetermined order and the concatenated number string is encrypted with a one-way function such as a hash function, the security strength of the stored hash value can be further increased. .

Further, in the third embodiment described above, in addition to the coordinate information of each registration point converted by the coordinate registration unit 122, the encryption registration unit 140 also has an order relationship that can be generated by the order relationship generation unit 123. It is also possible to adopt a configuration in which the numbers of numbers connected in this order are hashed and stored in the storage unit 130 as many as the number of patterns in the order relation.
In the case of this configuration example, the encryption verification unit 143 includes the coordinate information in the corresponding operation order number and the order generated by the order relation generation unit 123 for all possible patterns as combinations of key information and authentication information. The relations are concatenated and hashed in the same predetermined order as at the time of registration by the encryption registration unit 140. Then, each of the calculated hash values is collated with all hash values stored in the storage unit 130 by the encryption registration unit 140. If there is a matching value, authentication is OK, and if there is no match, authentication NG And
With such a configuration, a plurality of hash values including the order relationship between the key information and the authentication information are stored, so that the security strength of the stored hash values can be further increased.

  Further, in the third embodiment described above, the digit string hashed by the encryption registration unit 140 and stored in the storage unit 130 connects the coordinate information of each registration point converted by the coordinate registration unit 122 in a predetermined order. The number string is not limited to the obtained number string, and any number string may be used as long as the number string is uniquely determined from the converted coordinate information of each registration point. In this case, the numeric string hashed by the encryption verification unit 143 is also converted by the coordinate recognition unit 124 converted by the coordinate recognition unit 124 in the operation order number of the key information and by the coordinate recognition unit 124 in the operation order number of the authentication information. Based on the coordinate information, the encryption registration unit 140 obtains the same method as the above-described method.

[About each embodiment]
Each of the above-described embodiments is a preferred embodiment of the present invention, and the present invention is not limited to this, and various modifications can be made based on the technical idea of the present invention.

For example, each of the above-described embodiments is not limited to a configuration in which the input unit and the display unit are integrated, and the present invention can be similarly realized even if the input unit and the display unit are separate bodies or separate devices. Can do.
When the input unit and the display unit are separate, display an image such as a photograph on the display unit, and perform the position input operation on an input unit (for example, a tablet device) that can input position information on the display unit. By configuring so that an input position as a movement trajectory or a point can be confirmed by the unit, processing can be performed as in the above-described embodiment. Also with such a configuration, the above-described embodiments can be similarly realized, and the same effect can be obtained.

  Moreover, the input information authentication device 100 of each embodiment described above is not limited to a portable information terminal, and can be similarly applied to a stationary device such as a desktop PC.

  In addition, each functional unit of each of the above-described embodiments may have any configuration that realizes the above-described function. For example, one CPU executes a processing procedure of a program recorded on a recording medium. It may be realized by a plurality of function modules.

Further, by recording the processing procedure for realizing the input information authentication apparatus 100 as each embodiment described above as a program on a recording medium, the above-described functions according to each embodiment of the present invention are supplied from the recording medium. By the program to be executed, it can be realized by causing the CPU of the computer constituting the system to perform processing.
In this case, the present invention can be applied even when an information group including a program is supplied to the output device from the above recording medium or from an external recording medium via a network.
That is, the program code itself read from the recording medium realizes the novel function of the present invention, and the recording medium storing the program code and the signal read from the recording medium constitute the present invention. It will be.
As this recording medium, for example, a hard disk, an optical disk, a magneto-optical disk, a floppy (registered trademark) disk, a magnetic tape, a nonvolatile memory card, a ROM, or the like may be used.

  According to the program according to the present invention, each function in each of the above-described embodiments can be realized by a computer controlled by the program.

DESCRIPTION OF SYMBOLS 100 Input information authentication apparatus 110 Display input part 121 Display input control part 122 Coordinate registration part 123 Order relation generation part 124 Coordinate recognition part 125 Key information collation part (collation means)
126 Authentication information verification unit (verification means)
DESCRIPTION OF SYMBOLS 130 Memory | storage part 140 Encryption registration part 141 Encryption key information collation part 142 Encryption authentication information collation part 143 Encryption collation part

Claims (8)

An input information authentication device that inputs a position in a displayed image and performs authentication for determining whether information corresponding to the position matches authentication information stored in advance or not. ,
Authentication auxiliary information used to indicate information corresponding to what number of operations in a predetermined number of position input operations for performing the authentication should be adopted as the authentication information, and storage means for storing the authentication information;
An order relation generating means for generating an order relation between the operation order number for performing the authentication auxiliary information input operation and the operation order number for performing the authentication information input operation;
Matching means;
With
The authentication information and the authentication auxiliary information are stored in the storage unit as information indicating a position range including a predetermined input error range,
The verification means includes
Using the order relationship generated by the order relationship generating means, determining the operation order number to be verified and the operation order number not to be verified ,
When the order relation generated by the order relation generating means is an order relation in which the authentication auxiliary information is input prior to the authentication information, a position input that matches and matches within the position range of the authentication auxiliary information is performed. Using the position input in the operation order number of the authentication information determined based on the order relation generated by the order relation generation means and the order relation generated by the order relation generation unit as another object of verification. Do not use the position input at
When the order relation generated by the order relation generating means is an order relation in which the authentication information is input prior to the authentication auxiliary information, a position input that matches and matches within the position range of the authentication information is performed. , Using the position input in the operation order number of the authentication auxiliary information determined based on the order relation generated by the order relation generation means and the order relation generated by the order relation generation unit as another object of verification An input information authentication apparatus characterized by not using the position input in as a verification target . An image displayed in correspondence with a predetermined error range centered on each registration point registered and input as the authentication information and the authentication auxiliary information, or corresponding to a position input as the authentication information and the authentication auxiliary information. A recognition coordinate system is set for recognizing, as the same coordinates, a position range in which any one of the four corners is set as the origin coordinate, and the coordinate information of the registration point in the recognition coordinate system is authenticated. Information, coordinate registration means to be stored in the storage means as configuration information of the authentication auxiliary information,
Coordinate recognition means for converting an input position for the image into coordinate information in a recognition coordinate system set by the coordinate registration means;
With
The collation means collates the coordinate information stored in the storage means as the configuration information of the authentication information and the authentication auxiliary information, and the coordinate information converted by the coordinate recognition means. The input information authentication device described. Displays the authentication information and the authentication auxiliary information as a registered input within the error range determined in advance around each registration point, or in correspondence with the input position the as the authentication information and the authentication auxiliary information A recognition coordinate system is set for recognizing within the position range in which any one of the predetermined four corners of the image is the origin coordinate as the same coordinate, and the input position of the registration point is set in the recognition coordinate system. coordinate registration unit that converts the coordinate information,
An encryption registration unit that encrypts the coordinate information converted by the coordinate registration unit using a one-way function, and stores the encrypted value in the storage unit as configuration information of the authentication information and the authentication auxiliary information;
A coordinate recognizing unit for converting an input position relative to the image on the coordinate information in the recognition coordinate system set by the coordinate registering means,
With
The collation means is a value obtained by encrypting the authentication information, the value encrypted by the encryption registration means as configuration information of the authentication auxiliary information, and the coordinate information converted by the coordinate recognition means by the one-way function. The input information authentication device according to claim 1, wherein Displays the authentication information and the authentication auxiliary information as a registered input within the error range determined in advance around each registration point, or in correspondence with the input position the as the authentication information and the authentication auxiliary information A recognition coordinate system is set for recognizing within the position range in which any one of the predetermined four corners of the image is the origin coordinate as the same coordinate, and the input position of the registration point is set in the recognition coordinate system. Coordinate registration means for converting into coordinate information;
Seeking numeric string uniquely determined from the coordinate information of the converted the authentication information and the authentication auxiliary information by the coordinate registering means, the number string is encrypted by the one-way function, the authentication information to our dark Goka value Encryption registration means for storing in the storage means as configuration information of the authentication auxiliary information;
Coordinate recognition means for converting an input position for the image into coordinate information in a recognition coordinate system set by the coordinate registration means;
With
The comparison means, for all the patterns may as an input operation to the authentication information and the authentication assist information, the coordinate information converted by the coordinate recognizer in operational sequence number of the authentication information, the operation of the authentication auxiliary information The number information uniquely determined from the coordinate information converted by the coordinate recognition means in the order number is obtained in the same way as the obtaining method by the encryption registration means , and the obtained number string is obtained by the one-way function. encrypts the encrypted value, the authentication information, the authentication by the encrypting registration unit as the configuration information of the auxiliary information according to claim 1, wherein the matching on the encrypted value Input information authentication device. The coordinate recognition means includes
When the order relationship generated by the order relationship generating means is an order relation that allows the authentication auxiliary information to be input before the authentication information, the input position for the image is determined by the coordinate registration means for the authentication auxiliary information. When position input that is converted into coordinate information using the set recognition coordinate system and collates and matches within the position range of the authentication auxiliary information is performed, the number of operation orders in which the position input is performed, and the order relation The input position in the position input at the number of operation orders of the authentication information determined based on the order relation generated by the generation means is converted into coordinate information using the recognition coordinate system set by the coordinate registration means for the authentication information. Converted,
When the order relation generated by the order relation generation means is an order relation for inputting the authentication information before the authentication auxiliary information, the input position for the image is set by the coordinate registration means for the authentication information. The coordinate information is converted into coordinate information using the recognized coordinate system, and when the position input that matches and matches within the position range of the authentication information is performed, the operation order number in which the position input is performed, and the order relation generation unit The input position in the position input at the operation order number of the authentication auxiliary information determined on the basis of the order relation generated by the coordinate information using the recognition coordinate system set by the coordinate registration unit for the authentication auxiliary information. input information authentication device according to claim 2 in any one of 4, wherein the converting. The authentication information and the authentication auxiliary information are registered and input as a trajectory or point defined by a start point and an end point,
The registration point registered and input as the authentication information and the authentication auxiliary information is:
When a trajectory is registered, it is the start point and end point of the trajectory,
If a point is registered, that is the point,
The coordinate recognition means includes
When the authentication auxiliary information is converted into coordinate information and the authentication auxiliary information is registered as a trajectory, the input position for the image is determined by the coordinate registration unit with respect to the start point of the trajectory registered as the authentication auxiliary information. After conversion into coordinate information in the set recognition coordinate system, the end point position of the movement locus of the input position is recognized by the coordinate registration unit with respect to the end point of the locus registered as the authentication auxiliary information. It was converted into the coordinate information in the use coordinate system,
When the authentication auxiliary information is converted into coordinate information and the authentication auxiliary information is registered as a point, the input position for the image is set by the coordinate registration unit with respect to the point registered as the authentication auxiliary information. Converted to coordinate information in the recognition coordinate system,
When the authentication information is converted into coordinate information and the authentication information is registered as a trajectory, the input position for the image is set by the coordinate registration unit with respect to the start point of the trajectory registered as the authentication information. After converting into the coordinate information in the recognition coordinate system, the end position of the trajectory of the movement of the input position in the recognition coordinate system set by the coordinate registration unit with respect to the end point of the trajectory registered as the authentication information Convert to coordinate information,
The converted authentication information coordinate information about, if the authentication information is registered as a point, an input position against the image, set by the coordinate registering means relative to the point registered as the authentication information 6. The input information authenticating apparatus according to claim 5 , wherein the input information authenticating apparatus is converted into coordinate information in a recognition coordinate system . A touch panel display that displays the image on a display screen, detects a contact position on the display screen, and determines an input position on the image based on position information on the contact position,
Input information authentication device according to any one of 6 claim 1 wherein Rukoto receiving the position input to the image by the touch panel display. A program of an input information authentication apparatus for inputting a position in the image for the displayed image and performing authentication for determining whether or not the information corresponding to the position matches the authentication information stored in advance. There,
The input information authentication device includes authentication auxiliary information used to indicate information corresponding to what operation in a predetermined number of position input operations for performing authentication, and the authentication information. Storage means for storing
On the computer,
An order relationship generation procedure for generating an order relationship between the operation order number for performing the authentication auxiliary information input operation and the operation order number for performing the authentication information input operation;
Verification procedure;
And execute
The authentication information and the authentication auxiliary information are stored in the storage unit as information indicating a position range including a predetermined input error range,
In the matching procedure,
Using the order relation generated by the order relation generation procedure, the operation order number to be collated and the operation order number not to be collated are determined,
When the order relation generated by the order relation generation procedure is an order relation in which the authentication auxiliary information is input prior to the authentication information, a position input that matches and matches within the position range of the authentication auxiliary information is performed. Using the position input in the operation order number of the authentication information determined based on the order relation generated by the order relation generation procedure and the operation order number in which the position input is performed as another object of verification. Do not use the position input at
When the order relation generated by the order relation generation procedure is an order relation in which the authentication information is input before the authentication auxiliary information, a position input that matches the position within the position range of the authentication information is performed. , Using the position input in the operation order number of the authentication auxiliary information determined on the basis of the order relation generated by the order relation generation procedure, and the number of other operation order numbers A program for an input information authentication apparatus, wherein the position input in is not used as a verification target .

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