JP2008102890A - Access security management system by cellular phone and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an inexpensive, efficient and convenient access security management system by cellular phone by replacing a face authentication control panel set in a gateway in a conventional access security management system with a cellular phone. <P>SOLUTION: In this access security management system, face authentication is performed in a face authentication server without storing personal face information in the cellular phone, and face image information transmitted from the cellular phone to the face authentication server is encrypted so that the personal face image information cannot be stolen or altered during transmission thereof. A face feature is extracted by an analysis method in a frequency area, and optimized face feature information is acquired by use of a competitive neural network. According to this, high authentication accuracy can be ensured since the system has excellent robust property to intense light change, face expression change or the like can be obtained, and moved in a face authentication place due to the convenience of the cellular phone so as to avoid extreme sunlight or illumination. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention is a low-cost, efficient entrance / exit security management system applied to a facility that requires advanced security management by using an infrared communication function and a position measurement (GPS, simple position measurement) function in a mobile phone using face authentication. And the program.

  Currently, in order to enhance the infrared communication function and position measurement (GPS, simple position) function using a mobile phone, the face authentication control panel installed at the entrance / exit in the entrance / exit security management system has been replaced with a mobile phone at low cost, efficiency and convenience. A security management system for entering and exiting mobile phones.

  Currently, in the entrance / exit security management system, the face authentication control panel installed at the entrance / exit is used to capture the face image for authentication, transfer the face authentication image, or read the user ID card ID number. The introduction cost is high, and there are inconvenient problems such as taking time for user registration and re-registration.

  In the present invention, a face image for authentication is taken by a mobile phone, the face image is encrypted, and whether the user is at the entrance or exit from the infrared communication function of the mobile phone or the position information (GPS or simple position measurement) function. Is sent to the face authentication server of the entrance / exit security management system, and face authentication is performed at the face authentication server of the entrance / exit security management system.

  This makes it possible to introduce a low-cost, efficient and convenient entrance / exit security management system using an ordinary mobile phone without using an expensive face authentication control panel.

  Personal face information is not stored on the mobile phone, but the face authentication server of the entrance / exit security management system performs face authentication, and the face image information sent from the mobile phone to the face authentication server of the entrance / exit security management system is encrypted The personal face image information cannot be stolen or altered during information transmission, and facial features are extracted by frequency domain analysis, and optimized facial feature information is acquired using a competitive neural network. Because it has excellent robustness against intense light changes and facial expression changes, etc., and it can be moved at the face authentication location by the convenience of mobile phone, and it can also avoid extreme sunlight and lighting High authentication accuracy can be obtained.

  For face image information of n × m (n ≧ m) pixels photographed by a mobile phone camera, first, the positions of both eyes and both eyebrows are measured, and the vertical positions of both eyes and both eyebrows are substantially the same, and the center of the face Measure the nose with a genetic algorithm using knowledge of the structure of the entire face, such as being the object for the line, the nose and mouth being under the eyes, and finally the inheritance and evolution of the organism in the genetic algorithm A method of measuring the mouth position by selecting the most suitable one from a large number of candidates according to the mechanical rhythm.

  An accurate face image extraction method according to a face contour calculation formula based on the measured eye, nose, and mouth positions.

  A method for extracting face feature information by converting the extracted face image into a frequency domain with respect to the extracted face image.

  A method for acquiring optimum facial feature information from the extracted facial feature information using a competitive neural network trained by various teacher patterns (sample facial images).

  A method for creating face feature information for the optimized face feature information.

  An encryption method for the created face feature information.

  A method for decrypting the encrypted face feature information.

  A noise removal method for the decoded face feature information.

  A method for creating face image information for registration by a mobile phone having an infrared communication function.

  A method of transmitting face image information for authentication by a mobile phone having an infrared communication function.

  A method for creating face image information for registration based on GPS information of a mobile phone (use environment: outdoor or indoor GPS reception is good).

  A method of transmitting face image information for authentication using GPS information of a mobile phone (use environment: GPS reception is good outdoors or indoors).

  A method of creating registration face image information based on simple position measurement information of a mobile phone (use environment: GPS reception deteriorated in a room).

  A method of transmitting face image information for authentication using simple position measurement information of a mobile phone (use environment: GPS reception deteriorated in a room).

  A method for collating user face feature registration information stored in a face authentication server of an entrance / exit security management system with face feature information transmitted from a mobile phone during authentication.

  A method for setting an authentication threshold for a similarity (threshold) obtained by collating the registered information of the user face feature and the face feature information transmitted from the mobile phone during authentication.

  For face image information of n × m (n ≧ m) pixels photographed by a mobile phone camera, first, the positions of both eyes and both eyebrows are measured, and the vertical positions of both eyes and both eyebrows are substantially the same, and the center of the face Measure the nose with a genetic algorithm using knowledge of the structure of the entire face, such as being the object for the line, the nose and mouth being under the eyes, and finally the inheritance and evolution of the organism in the genetic algorithm A computer program that realizes a function to measure the mouth position by selecting the best one from a large number of candidates according to the mechanical rhythm.

  A computer program that realizes a function of extracting an accurate face image by a face contour calculation formula based on the measured eye, nose, and mouth positions.

  A computer program for realizing a function of extracting face feature information by converting the extracted face image into a frequency domain with respect to the extracted face image.

  A computer program for realizing a function of acquiring optimal face feature information from the extracted face feature information using a competitive neural network trained by various teacher patterns (sample face images).

  A computer program that realizes a function of creating face feature information for the optimized face feature information.

  A computer program for realizing a function of encrypting the created face feature information.

  A computer program for realizing a function of decrypting the encrypted face feature information.

  A computer program for realizing a function of removing noise from the decoded face feature information.

  A computer program that realizes the function to create face image information for registration by a mobile phone with infrared communication function.

  A computer program that realizes a function to transmit authentication face image information by a mobile phone having an infrared communication function.

  A computer program that realizes a function of creating face image information for registration based on GPS information of a mobile phone (use environment: outdoor or indoor GPS reception good condition).

  A computer program that realizes a function of transmitting authentication face image information based on GPS information of a mobile phone (use environment: outdoor or indoor GPS reception good condition).

  A computer program that realizes a function of creating registration face image information based on simple position measurement information of a cellular phone (use environment: GPS reception deteriorated in a room).

  A computer program that realizes a function of transmitting authentication face image information based on simple position measurement information of a mobile phone (use environment: GPS reception deteriorated in a room).

  A computer program that realizes a function of collating user face feature registration information stored in a face authentication server of an entrance / exit security management system with face feature information transmitted from a mobile phone during authentication.

  A computer program for realizing a function of setting an authentication threshold value for a similarity (threshold value) obtained by collation between registration information of the user face feature and face feature information transmitted from a mobile phone during authentication.

  The present invention uses a mobile phone position measurement (GPS (use environment: outdoor and indoor GPS reception good state), simple position measurement (use environment: indoor GPS reception deteriorated state)) function and infrared communication function. It is very effective in a new method and computer program that can acquire a cost, high rate and convenient advanced entrance / exit security management system.

  The present invention exhibits a great effect in a new method and computer program that can acquire an accurate face image by precise measurement of the face position.

  The optimized face feature image information is highly effective in high-speed, high-accuracy and excellent robust face authentication methods and computer programs.

  Without storing face image information on the mobile phone, send facial feature information for authentication to the face authentication server of the entrance / exit security management system, and authenticate with the face authentication server of the entrance / exit security management system to steal personal face information In addition, the method and computer program that can solve the problem of falsification are greatly effective.

  A method capable of solving problems such as theft or alteration of personal face information during transmission of face feature information since it is encrypted before it is transmitted to the face authentication server of the entrance / exit security management system It is very effective for computer programs.

Best Mode for Carrying Out the Invention

  Hereinafter, embodiments of the present invention will be described.

  FIG. 1 is an application schematic diagram showing the configuration of an entrance / exit security management system using a mobile phone with an infrared communication function, which is one embodiment of the present invention.

  FIG. 2 is a block diagram showing the configuration of an entrance / exit security management system using a mobile phone with an infrared communication function according to one embodiment of the present invention.

The entrance / exit security management system using a mobile phone with an infrared communication function according to the present invention includes an authentication face image input mobile phone 1, a face image encryption unit 2, a registration / authentication selection unit 3, and an infrared communication transmission unit. 4. Registration success / authentication result display unit 5, face image receiving unit 6, face image decoding unit 7, face position measurement unit 8, face image extraction 9, face feature extraction unit 10, optimized face feature information creation unit 11 , Face registration information and authentication information creation unit 12, face authentication unit 13, face image registration success / authentication result transmission unit 14, infrared lock signal transmission unit F, face registration information database DB, entry / exit security management system face authentication server S, and a key controller G ₁ ... G _i of each entrance of the facility.

  The mobile phone 1 for authentication face image input has a function of photographing a face image of n × m (n ≧ m) pixels of a user by a camera of the mobile phone and transmitting or receiving a face image for authentication.

  The face image encryption unit 2 encrypts the photographed image, adds the user position information to the face image to the encrypted face image, and transmits it to the selection unit 3 at registration / authentication.

  The registration / authentication selection unit 3 adds the registration / authentication information selected by the user and transmits the information to the transmission unit 4.

  The transmission unit 4 transmits the face authentication information transmitted from the registration / authentication selection unit 3 to the face authentication server S of the entrance / exit security management system.

  The face information receiving unit 6 receives the face authentication information transmitted from the mobile phone and transmits it to the face image decoding unit 7.

  The face image decoding unit 7 decodes the face authentication information transmitted from the face information receiving unit 7 and transmits it to the face position measuring unit 8.

  The face position measurement unit 8 first measures the positions of both eyes and both eyebrows with respect to face image information of n × m (n ≧ m) pixels photographed by a mobile phone camera, and the vertical positions of both eyes and both eyebrows. Is the same as the target for the center line of the face, the nose and mouth are at the lower part of the eye An optimal one is selected from a large number of candidates according to the genetics and evolutionary mechanical rhythm of the algorithm, the mouth position is measured, and the measured information about both eyes, nose and mouth is transmitted to the face image extraction unit 9.

  The face image extraction unit 9 extracts an accurate face image using the face contour calculation formula based on the face (both eyes, nose, mouth) position information transmitted from the face position measurement unit 9, and sends it to the face feature extraction unit 10. The extracted face image is transmitted.

  The facial feature extraction unit 10 converts the facial image transmitted from the facial image extraction unit 9 into a frequency domain, extracts facial feature information, and extracts the facial feature information extracted to the optimized facial feature information creation unit 11. Send.

  The optimized face feature information creation unit 11 optimizes the face feature information received from the face feature extraction unit 11 and transmits the optimized face feature information to the registration information and authentication information creation unit 12.

  The registration information and authentication information creation unit 12 transmits registration face feature information (during registration) to the registration database DB according to the registration / authentication information attached to the received optimized face feature information and stores it.

  The registration information and authentication information creation unit 12 uses the registration / authentication information attached to the received optimized face feature information to the face image registration success / authentication result transmission unit 14 at the time of registration success or registration failure, or a re-registration request. Send information.

  The registration information and authentication information creation unit 12 transmits authentication face feature information at the time of authentication to the face authentication unit 13 according to information at the time of registration and authentication attached to the received optimized face feature information.

  The face authentication unit 13 uses the similarity calculation algorithm based on the comparison between the authentication face feature information and the registration face feature information stored in the registration database DB, and the authentication result of whether or not the user is an authentication threshold. And the authentication result is transmitted to the face image registration success / authentication result transmission unit 14.

  The face image registration success / authentication result transmission unit 14 transmits the registration success result or registration failure or re-registration request information at the time of registration to the mobile phone registration success / authentication result display unit 5.

  The face image registration success / authentication result transmission unit 14 transmits the authentication result at the time of authentication to the mobile phone registration success / authentication result display unit 6 based on the authentication result received from the face authentication unit 13.

Transmission unit F opens the lock signal by infrared in the mobile phone transmits a closing lock signal X to the key controller G ₁ ... G _i facility entrance corresponding to the user location by the authentication result

Face image registration success or the authentication result transmitting unit 14 transmits a closing lock signal Y to the key controller G ₁ ... G _i facility entrance corresponding to the user location by the authentication result received from the face authentication unit 13.

In the key controller G ₁ ... G _{i at} the entrance / exit of the facility corresponding to the user location, the open / close lock signal Z is Z = X · Y (logical product formula);
Only when X = Y = 1, Z = X · Y = 1; the doorway is unlocked.
Here, X is an open / close lock signal transmitted from an infrared open / close lock signal transmission unit F in a mobile phone, 1 or 0;
Y is an open / close lock signal transmitted from the face image registration success / authentication result transmission unit 14, 1 or 0.

  FIG. 5 is a position information measurement (GPS (use environment: outdoor reception or indoor GPS reception good state), simple position information measurement (use environment: indoor GPS reception deterioration state) function, which is another embodiment of the present invention. It is the application schematic diagram which shows the entrance / exit security management system structure by a mobile phone with an attached.

  FIG. 6 is a position information measurement (GPS (use environment: good reception of GPS outdoors or indoors), simple position information measurement (use environment: poor GPS reception indoors)) according to another embodiment of the present invention. It is a block diagram which shows the entrance / exit security management system structure by a mobile telephone with a function.

An entrance / exit security management system using a mobile phone with a location information measurement function (GPS (use environment: GPS reception is good outdoors or indoors), simple location information measurement (use environment: GPS reception is bad indoors)) is provided. Mobile phone 1 for authentication face image input, face image encryption unit 2, unit 3 for adding user position information to a face image, selection unit 4 for registration / authentication, face image transmission unit 5, registration success / authentication Result display unit 6, face image receiving unit 7, face image decoding unit 8, face position measurement unit 9, face image extraction 10, face feature extraction unit 11, optimized face feature information creation unit 12, face registration information and authentication information generating unit 13, the face authentication unit 14, the face image registration success and authentication result transmitting unit 15, the face registration information for the database DB, entry and exit security management system of the face authentication server S, of each entrance of the facility key controller G ₁ ... _i, and a base station B to provide a GPS · simple location measurement.

  The mobile phone 1 for authentication face image input has a function of photographing a face image of n × m (n ≧ m) pixels of a user by a camera of the mobile phone and transmitting or receiving a face image for authentication.

  The face image encryption unit 2 encrypts the photographed image and transmits it to the unit 3 that adds user position information to the face image.

  The unit 3 for adding the user position information to the face image adds the user position information to the encrypted face image and transmits it to the selection unit 4 at the time of registration / authentication.

  The registration / authentication selection unit 4 selects the registration / authentication time, and adds the user position information to the face image to the face authentication information transmitted from the unit 3 for registration / authentication. The information is added and transmitted to the face image transmission unit 5.

  The face image transmission unit 5 transmits the face authentication information transmitted from the registration / authentication selection unit 4 to the face authentication server S of the entrance / exit security management system.

  The face image receiving unit 7 receives the face image information transmitted from the mobile phone and transmits it to the face image decoding unit 8.

  The face image decoding unit 8 decodes the face image information transmitted from the face image receiving unit 7 and transmits it to the face position measuring unit 9.

  The face position measuring unit 9 first measures the positions of both eyes and both eyebrows with respect to face image information of n × m (n ≧ m) pixels photographed by a mobile phone camera, and the vertical positions of both eyes and both eyebrows. Is the same as the target for the center line of the face, the nose and mouth are at the lower part of the eye An optimal one is selected from a large number of candidates according to the genetic and evolutionary mechanical rhythm of the algorithm, the mouth position is measured, and the measured information about both eyes, nose and mouth is transmitted to the face image extraction unit 10.

  The face image extraction unit 10 performs accurate face image extraction using the face contour calculation formula based on the face (both eyes, nose, mouth) position information transmitted from the face position measurement unit 9, and sends the face image to the face feature extraction unit 11. The extracted face image is transmitted.

  The facial feature extraction unit 11 converts the facial image transmitted from the facial image extraction unit 10 into a frequency domain, extracts facial feature information, and extracts the facial feature information extracted to the optimized facial feature information creation unit 12. Send.

  The optimized face feature information creation unit 12 optimizes the face feature information received from the face feature extraction unit 11 and transmits the optimized face feature information to the registration information and authentication information creation unit 13.

  The registration information and authentication information creation unit 13 transmits the registration face feature information (during registration) to the registration database DB according to the registration / authentication information attached to the received optimized face feature information and stores it.

  The registration information / authentication information creation unit 13 uses the registration / authentication information attached to the received optimized face feature information to the face image registration success / authentication result transmission unit 15 at the time of registration success or registration failure, or a re-registration request. Send information.

  The registration information and authentication information creation unit 13 transmits authentication face feature information at the time of authentication to the face authentication unit 14 based on information at the time of registration and authentication attached to the received optimized face feature information.

  The face authentication unit 14 uses the similarity calculation algorithm by comparing the authentication face feature information with the registration face feature information stored in the registration database DB, and the authentication result of whether or not the user is an authentication threshold. And the authentication result is transmitted to the face image registration success / authentication result transmission unit 15.

  The face image registration success / authentication result transmission unit 15 transmits a registration success result or registration failure or re-registration request information at the time of registration to the mobile phone registration success / authentication result display unit 6.

  The face image registration success / authentication result transmission unit 15 transmits the authentication result at the time of authentication to the mobile phone registration success / authentication result display unit 6 according to the authentication result received from the face authentication unit 14.

Face image registration success or the authentication result transmitting unit 15 transmits a closing lock control signal to the key controller G ₁ ... G _i of each entrance of the facility corresponding to the user location by the authentication result received from the face authentication unit 14.

  As mentioned above, although the preferable implementation form of this invention was demonstrated, naturally the technique of this invention is widely applicable to security application fields other than the above.

Application schematic diagram showing an example of the configuration of an entrance / exit security management system using a mobile phone with an infrared communication function in the present invention The functional block diagram which shows an example of the entrance / exit security management system by the mobile phone with the infrared communication function in this invention Part 1 of a flowchart showing an example of a registration process of an entrance / exit security management system using a mobile phone with an infrared communication function in the present invention. Part 2 of the flowchart showing an example of the registration process of the entrance / exit security management system by the mobile phone with the infrared communication function in the present invention. Part 1 of a flowchart showing an example of authentication processing of an entrance / exit security management system using a mobile phone with an infrared communication function in the present invention. Part 2 of the flowchart showing an example of the authentication process of the entrance / exit security management system by the mobile phone with the infrared communication function in the present invention. Entry / exit security management system configuration by mobile phone with position information measurement (GPS (use environment: GPS reception is good in outdoor or indoor), simple position information measurement (use environment: GPS reception is bad in the room)) function in the present invention Application schematic diagram showing an example The entrance / exit security management system by the mobile phone with the position information measurement (GPS (use environment: outdoor and indoor GPS reception good state), simple position information measurement (use environment: indoor GPS reception deteriorated state)) function in the present invention. Functional block diagram showing an example The entrance / exit security management system by the mobile phone with the position information measurement (GPS (use environment: outdoor and indoor GPS reception good state), simple position information measurement (use environment: indoor GPS reception deteriorated state)) function in the present invention. Part 1 of a flowchart showing an example of registration processing The entrance / exit security management system by the mobile phone with the position information measurement (GPS (use environment: outdoor and indoor GPS reception good state), simple position information measurement (use environment: indoor GPS reception deteriorated state)) function in the present invention. Part 2 of the flowchart showing an example of the registration process The entrance / exit security management system by the mobile phone with the position information measurement (GPS (use environment: outdoor and indoor GPS reception good state), simple position information measurement (use environment: indoor GPS reception deteriorated state)) function in the present invention. Part 1 of a flowchart showing an example of authentication processing The entrance / exit security management system by the mobile phone with the position information measurement (GPS (use environment: outdoor and indoor GPS reception good state), simple position information measurement (use environment: indoor GPS reception deteriorated state)) function in the present invention. Part 2 of the flowchart showing an example of the authentication process

Explanation of symbols

DESCRIPTION OF SYMBOLS FOR APPLICATION Schematic (FIG. 1) showing the configuration of an entrance / exit security management system using a mobile phone with an infrared communication function in the present invention:
P: User M: Mobile phone with infrared communication function that the user has G _A1 : Facility entrance / exit where the user is located G _B1 , G _B2 ,..., G _BN : Each facility entrance / exit L: With infrared receiving function Controller key W: Base station for mobile phone communication

DESCRIPTION OF SYMBOLS ABOUT THE FUNCTION BLOCK DIAGRAM (FIG. 2) which shows an example of the entrance / exit security management system by the mobile phone with an infrared communication function in this invention:
1: mobile phone for authentication face image input 2: face image encryption unit 3: unit for adding ID number to face image 4: selection unit for registration / authentication 5: transmission unit for face image 6: registration success / authentication Result display unit 7: Face image receiving unit 8: Face image decoding unit 9: Face position measurement unit 10: Face image extraction 11: Face feature extraction unit 12: Optimized face feature information creation unit 13: Face registration information and Authentication information creation unit 14: Face authentication unit 15: Successful registration of face image to user's mobile phone / authentication result transmission unit F: Transmission unit of infrared lock signal DB: Face registration information database S: Entrance / exit security management system Face authentication server G ₁ ... G _i : Multiple entrances to the facility

Entry / exit security management system configuration by mobile phone with position information measurement (GPS (use environment: GPS reception is good in outdoor or indoor), simple position information measurement (use environment: GPS reception is bad in the room)) function in the present invention Description of reference numerals for an application schematic diagram (FIG. 5) showing an example:
P: User M: Cellular phone with a function of measuring position information of a user (GPS (use environment: GPS reception is good outdoors or indoors), simple position information measurement (use environment: GPS reception is bad indoors)) G _A1 : Facility entrance / exit where users are located G _B1 , G _B2 ,..., G _BN : Each facility entrance / exit B: Base station providing GPS / simple position measurement

The entrance / exit security management system by the mobile phone with the position information measurement (GPS (use environment: outdoor and indoor GPS reception good state), simple position information measurement (use environment: indoor GPS reception deteriorated state)) function in the present invention. Explanation of a functional block diagram (FIG. 6) showing an example:
1: Mobile phone for authentication face image input 2: Face image encryption unit 3: Unit for adding ID number to face image 4: Selection unit for registration / authentication 5: Transmission unit for authentication face information 6: Successful registration Authentication result display unit 7: Authentication face information reception unit 8: Face image decoding unit 9: Face position measurement unit 10: Face image extraction 11: Face feature extraction unit 12: Optimized face feature information creation unit 13: Face registration information and authentication information creation unit 14: Face authentication unit 15: Face image registration success / authentication result transmission unit DB: Database for face registration information S: Face authentication server of entrance / exit security management system G ₁ ... G _i : Facility Key controller at each door B: Base station that provides GPS and simple position measurement

Claims (32)

  An accurate face position measurement method for face image information of n × m (n ≧ m) pixels taken by a mobile phone camera.   An accurate face information image extraction method for the measured face position information.   A method for extracting facial features by converting the extracted facial image information into a frequency domain.   A method for optimizing facial feature information using a neural network for the extracted facial feature information.   A method for creating face feature information for the optimized face feature information.   An encryption method for the created face feature information.   A method for decrypting the encrypted face feature information.   A noise removal method for the decoded face feature information.   A method for creating face image information for registration using a mobile phone with an infrared communication function.   A method of transmitting face image information for authentication by a mobile phone with an infrared communication function.   A method for creating face image information for registration based on GPS information of a mobile phone (use environment: outdoor or indoor GPS reception is good).   A method of transmitting face image information for authentication using GPS information of a mobile phone (use environment: indoor or outdoor GPSGPS reception good condition).   A method for creating face image information for registration by simple position information measurement of a mobile phone (use environment: GPS reception deteriorated in a room).   A method of transmitting authentication face image information by simple position information measurement of a mobile phone (use environment: GPS reception deteriorated in a room).   A method for collating user face feature registration information stored in a face authentication server of an entrance / exit security management system with face feature information transmitted from a mobile phone during authentication.   A method of calculating a similarity (threshold value) obtained by collating the user face feature registration information with face feature information transmitted from a mobile phone during authentication, and a method of setting an authentication threshold.   A computer program that realizes a function of measuring an accurate face position with respect to face image information of n × m (n ≧ m) pixels photographed by a mobile phone camera.   A computer program that realizes a function of extracting an accurate face information image from the measured face position information.   A computer program that realizes a function of converting the extracted face image information into a frequency domain and extracting a face feature.   A computer program for realizing a function of optimizing facial feature information by a neural network with respect to the extracted facial feature information.   A computer program that realizes a function of creating face feature information for the optimized face feature information.   A computer program for realizing a function of encrypting the created face feature information.   A computer program for realizing a function of decrypting the encrypted face feature information.   A computer program for realizing a function of removing noise from the decoded face feature information.   A computer program that realizes the function to create face image information for registration using a mobile phone with an infrared communication function.   A computer program that realizes the function of transmitting authentication face image information using a mobile phone with an infrared communication function.   A computer program that realizes a function of creating face image information for registration based on GPS information of a mobile phone (use environment: outdoor or indoor GPS reception good condition).   A computer program that realizes a function of transmitting authentication face image information based on GPS information of a mobile phone (use environment: outdoor or indoor GPS reception good condition).   A computer program that realizes a function of creating registration face image information based on simple position measurement information of a cellular phone (use environment: GPS reception deteriorated in a room).   A computer program that realizes a function of transmitting authentication face image information based on simple position measurement information of a mobile phone (use environment: GPS reception deteriorated in a room).   A computer program that realizes a function of collating user face feature registration information stored in a face authentication server of an entrance / exit security management system with face feature information transmitted from a mobile phone during authentication.   A computer program for realizing a function of calculating a similarity (threshold value) obtained by collation with registration information of the user face feature and face feature information transmitted from a mobile phone during authentication and a function of setting an authentication threshold.

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