JP2008015884A - Iris authentication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an iris authentication system effectively guiding a user in a timely fashion by using voice guidance. <P>SOLUTION: The iris authentication system, which is provided with a portable terminal having a photographing means for photographing an eye image of a user and an authentication device 200 for collating an iris code generated from image information received from the portable terminal with a registered iris code to authenticate the user, comprises: a motion detecting part 104 for detecting its own stationary state and outputting a detection signal; a stationary determining part 105 for determining whether the apparatus is stationary on the basis of the detection signal; an operation control part 109 for operating the photographing means when the stationary determining part determines that the apparatus is stationary; a distance measuring part 106 for measuring a distance from the apparatus to the eyes of the user on the basis of the image information acquired by the photographing means; a voice output part 107 for outputting voice guidance for guiding the user so as to be within the coverage of authentication; and a transmitting part 108 for transmitting the image information acquired by the photographing to the authentication device. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an iris authentication system using an iris as a biometric feature, and more particularly to guidance guidance when an iris image used for the system is captured by a camera.

  Conventionally, an iris authentication system using an image of an iris portion of an eye has been proposed as an individual identification system that uses biological features. This iris authentication system captures the vicinity of an eye in a living organism such as a human by a camera, cuts out an iris portion from the captured image, obtains an iris image, encodes a feature pattern of the iris image, and generates an iris code. It is acquired, and the identity code is verified against the registered iris code registered in advance.

  When using an auto-focus camera when taking an eye image, the camera can focus regardless of the distance between the user and the camera. The user's burden is reduced.

However, when the iris code is collated in the iris authentication system, the size of the photographed iris image greatly affects the success rate of identity authentication, that is, the recognition rate indicating the rate of recognizing the identity. That is, when an iris image is taken with a small size, the resolution is lowered, and as a result, the recognition rate is lowered. In addition, if an excessive image of only the vicinity of the eye is captured, a part of the iris may not be included in the captured image, and a part of the iris information may be lost. Can't get.
Therefore, in order to prevent a reduction in recognition rate and loss of iris information, it is necessary to acquire an iris image having an appropriate size. For this purpose, the user's iris must be photographed while maintaining the distance between the user and the camera within a certain range.

By the way, the range in which the distance between the user and the camera is limited in order to acquire an iris image effective for the personal authentication is called a recognition effective area.
In Patent Document 1, as a method of guiding the user so that the distance from the camera to the user is within the recognition effective area, the position of the user is determined and the user is guided to be within the recognition effective range. An iris authentication system that outputs voice information is proposed.
JP 2000-259817 A

  However, in the guidance guidance using the voice information of Patent Document 1, since the voice guidance is output while the user is guided in a certain direction (for example, a direction approaching the camera), the same voice guidance (for example, to the camera) (Please come closer)) was repeatedly output, and it was annoying for the user, and the guidance guidance was not obtained.

  Also, when the voice guidance is output at regular time intervals, the next voice guidance may not be output when the user has finished moving according to the voice guidance. At this time, since the user is in a situation where there is no voice guidance and is confused as to whether or not to move next, the user cannot take the next action promptly. After all, there was a problem that it took a long time to guide users.

  Accordingly, an object of the present invention is to provide an iris authentication system that can guide a user in a timely manner using voice guidance.

The present invention adopts the following configuration in order to solve the above points.
<Configuration 1>
Personal authentication is performed by collating a portable terminal having a photographing means for photographing a user's eye image and acquiring image information, an iris code generated from image information received from the portable terminal, and a registered iris code registered in advance. In an iris authentication system with an authentication device to perform,
Mobile devices
A motion detection unit that detects the presence or absence of self and outputs a detection signal; a stationary determination unit that determines whether or not the subject is stationary based on the detection signal; and a stationary determination unit When it is determined, the operation control unit that operates the imaging unit, the distance measurement unit that measures the distance from the user's eye based on the image information acquired by the imaging unit, and the distance measured by the distance measurement unit Output voice guidance to guide the user so that the distance is within the effective recognition range if the user is outside the effective recognition range that must be maintained in order to acquire valid image information for personal authentication And a transmission unit that transmits the image information acquired by the imaging unit to the authentication device when the distance measured by the distance measurement unit is within the effective recognition range.
<Configuration 2>
The user compares the iris code generated from the image information received from the stationary terminal and the pre-registered iris code with a stationary terminal having a photographing means for capturing a user's eye image and acquiring image information In an iris authentication system equipped with an authentication device for authentication,
The stationary terminal
The motion detection unit that detects whether the user is stationary and outputs a detection signal, the stationary determination unit that determines whether the user is stationary based on the detection signal, and the stationary determination unit are stationary If it is determined, the operation control unit that operates the imaging unit, the distance measurement unit that measures the distance between the user's eyes and the user based on the image information acquired by the imaging unit, and the distance measured by the distance measurement unit Voice output unit that outputs voice guidance to guide the user so that the distance is within the recognition effective range when it is outside the recognition effective range that must be maintained in order to acquire image information effective for personal authentication And a transmission unit that transmits image information acquired by the imaging unit to the authentication device when the distance measured by the distance measurement unit is within the recognition effective range.

  According to the iris authentication system of the present invention, a portable terminal having a photographing unit for photographing an eye image detects a presence / absence of its own stationary and outputs a detection signal, and the self-stationary based on the detection signal. A stationary determination unit that determines whether or not the camera is stationary, an operation control unit that activates the imaging unit when the stationary determination unit determines that the camera is stationary, and image information acquired by the imaging unit. Based on the distance measurement unit that measures the distance from the self to the user's eyes (iris), the distance measured by the distance measurement unit must be maintained in order to acquire image information effective for personal authentication A voice output unit that outputs a voice guidance for guiding the user so that the distance is within the recognition effective range when the distance is outside the recognition effective range. Judged Then, the voice output unit outputs voice guidance and guides the user so that the distance between the user's eyes and the user's eyes is within the effective recognition range. I can guide users well.

  Embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a configuration diagram of an iris authentication system 10.
The iris authentication system 10 according to the first embodiment includes a portable camera 100 that captures a user's eye image and obtains image information, and an iris portion is cut out from the image information obtained by the portable camera 100, and a feature pattern of an iris image And a collation terminal 200 that performs personal authentication by collating the generated iris code with a registered iris code registered in advance. The portable camera 100 and the verification terminal 200 are communicably connected via the wireless communication line 300.

  The iris authentication system 10 operates in either a registration mode or a verification mode. The registration mode is a mode in which the portable camera 100 is used to capture a user's eye image, acquire image information, and register an iris code generated from the image information as a registered iris code in the verification terminal 200. The operating mode used. The collation mode is an operation mode used when the user needs to authenticate the user, and indicates a feature pattern of an iris image generated from image information acquired by capturing an eye image with the portable camera 100. This is an operation mode used when performing identity authentication by comparing an iris code with a registered iris code registered in advance.

  The portable camera 100 is output from the operation unit 101 for performing designation input for the user to designate an operation mode, a photographing unit 102 for photographing a user's eye image and outputting an image signal, and the photographing unit 102. An image storage unit 103 that temporarily stores image information based on the image signal, a motion detection unit 104 that detects the movement of the portable camera 100, and a stationary determination unit 105 that determines whether the portable camera 100 is stationary. And a distance measuring unit 106 that measures the distance from the user's eye (iris) to the portable camera 100, and guides the user to correct the distance from the user's eye (iris) to the portable camera 100. A voice guidance output unit 107 that outputs voice guidance for communication, a communication interface 108 for wireless communication with the verification terminal 200, a control unit 109 that controls and controls each unit, And a coupling terminal 200 and antenna 110 to radio communication.

When receiving the designation input for designating the operation mode of the iris authentication system 10, the operation unit 101 outputs an operation mode signal indicating the designated operation mode to a temporary storage unit (not shown), and temporarily holds the operation mode signal there. Let
In the present embodiment, an example will be described below in which a user performs designation input for designating a collation mode to the operation unit 101 and the iris authentication system 10 operates in the collation mode.

  The motion detection unit 104 has a structure in which a minute beam and an inertial mass are formed on a silicon substrate, and a piezoresistor serving as a strain gauge is formed on the silicon substrate, and when the force (acceleration) is received, the beam bends. Therefore, the resistance value of the piezoresistor changes, and the change width of the resistance value is proportional to the magnitude of the force (acceleration). Therefore, the movement of the portable camera 100 is detected based on the change width of the resistance value. . When detecting the movement of the portable camera 100 in this way, the motion detection unit 104 outputs a detection signal to the stillness determination unit 105.

  When receiving the detection signal from the motion detection unit 104, the stationary determination unit 105 determines whether the portable camera 100 is stationary based on the detection signal. The stationary determination unit 105 determines that the portable camera 100 is stationary when the value indicated by the detection signal is equal to or smaller than a predetermined threshold, and when the value indicated by the detection signal is greater than the threshold, the portable camera It is determined that 100 is moving. The stillness determination unit 105 outputs to the control unit 109 a still signal indicating whether or not it is still as a determination result.

  When the control unit 109 receives a stationary signal indicating that the portable camera 100 is stationary from the stationary determination unit 105, the control unit 109 transmits a photographing instruction signal to the photographing unit 102.

  The imaging unit 102 has an autofocus function. When the imaging instruction signal is received from the control unit 109, the imaging unit 102 images the user's eyes (iris) and stores the image signal acquired by the imaging in the image storage unit 103. . When the image capturing unit 102 finishes storing the image signal in the image storage unit, the image capturing unit 102 sends an image capturing completion signal to the control unit 109.

  When receiving a shooting completion signal from the shooting unit 102, the control unit 109 sends a read signal to the image storage unit 103.

  The image storage unit 103 temporarily holds image information including an iris for one frame based on the image signal output from the photographing unit 102, and temporarily holds 1 when receiving a read signal from the control unit 109. The image information for the frame is output to the distance measuring unit 106.

  The distance measurement unit 106 includes an eye position detection unit 1061 that detects the position of the eye based on the image information, an iris diameter measurement unit 1062 that measures the iris diameter r of the eye in the iris image, and the iris diameter r and the real space. A shooting distance data storage unit 1063 that stores shooting distance data indicating a correspondence relationship with the distance D from the portable camera 100 to the iris, a distance D corresponding to the value of r indicated by the iris diameter information, and the distance D A distance determination unit 1064 that determines whether or not the image is within a predetermined range, and image information from the image storage unit 103 is supplied to the eye position detection unit 1061.

  Upon receiving the image information for one frame, the eye position detection unit 1061 detects the center position of the eye in the iris image obtained by cutting out the iris part based on the image information, and the eye position information indicating the center position of the eye is detected. Output to the diameter measuring unit 1062.

  When the iris diameter measuring unit 1062 receives the eye position information from the eye position detecting unit 1061, the iris diameter measuring unit 1062 is on the circumference of the first circle having the radius r centered on the eye position coordinates (x0, y0) indicated by the eye position information. The process of obtaining the average luminance value Ca (r) of the pixel and the average luminance value Cb (r) of the pixel on the circumference of the second circle having the radius (r + α) is executed for a plurality of values of radius r, and Cb The value of r when (r) −Ca (r) becomes the maximum value is obtained, and iris diameter information indicating the value of r is obtained.

  The shooting distance data storage unit 1063 is shooting distance data indicating the correspondence between the iris diameters r1, r2,... In the real space and the distances D1, D2,... Between the eyes (iris) and the portable camera 100. Remember. The photographing distance data is acquired by photographing the model of the iris diameter r while changing the distance D between the model of the iris diameter r and the portable camera 100 in the real space. That is, the iris diameter r model is photographed from various distances (D1, D2, D3,...), The iris diameter r1 in the image photographed from the distance D1 is obtained, and similarly, the iris diameter r is photographed from the distance D2. After obtaining the iris diameter r2 in the obtained image, the iris diameter r3 in the image photographed from the distance D3, and so on, the photographing distance data is the distance (D1, D2, D3,...). It is acquired in a table format in which iris diameters (r1, r2, r3,...) Are associated with each other.

  When the distance determination unit 1064 receives the iris diameter information from the iris diameter measurement unit 1062, the distance determination unit 1064 refers to the photographing distance data stored in the photographing distance data storage unit 1063 and corresponds to the distance D corresponding to the value of r indicated by the iris diameter information. Determine. The distance determination unit 1064 determines whether or not the distance D is within a predetermined range, and outputs a recognition valid signal to the control unit 109 when the distance D is within the predetermined range. Further, the distance determination unit 1064 outputs a position correction signal for correcting the position of the portable camera 100 to the voice guidance output unit 107 when the distance D is outside the predetermined range.

By the way, in order to capture the user's iris in an appropriately sized image, that is, in order to acquire image information effective for personal authentication, the distance D from the user's eye (iris) to the portable camera 100 Must be maintained within a predetermined range. The range of the distance D at this time is referred to as a recognition effective range.
Therefore, the distance determination unit 1064 holds the effective recognition range data and determines whether the distance D is within a predetermined range, that is, from the user's eyes (iris) to the portable camera 100. It is determined whether or not the distance D is within a recognition effective range that must be maintained in order to acquire image information effective for personal authentication, and a recognition valid signal is output.

  When the control unit 109 receives the recognition valid signal from the distance determination unit 1064, the control unit 109 controls the output of these storage units so as to transmit the operation mode signal of the temporary storage unit and the image information of the image storage unit 103 to the verification terminal 200. As a result, the operation mode signal held in the temporary storage unit (not shown) and the image information held in the image storage unit 103 are output from the respective storage units to the communication interface 108.

When the voice guidance output unit 107 receives the position correction signal from the distance determination unit 1064, the distance D from the user's eye (iris) to the portable camera 100 is maintained within the recognition effective range based on the position correction signal. The voice guidance for guiding the user is selected. The voice guidance output unit 107 outputs the selected voice guidance from a speaker (not shown).
If the distance D is far outside the effective recognition range, the voice guidance output unit 107 outputs guidance guidance to correct the position of the far camera. For example, voice guidance such as “Please bring the camera closer” is output.
On the contrary, when the distance D is near outside the effective recognition range, the voice guidance output unit 107 outputs guidance guidance to correct the position of the near camera. For example, voice guidance such as “Please move your camera further” is output.

The communication interface 108 performs wireless communication with the verification terminal 200 via the wireless communication line 300.
When the communication interface 108 receives an operation mode signal from a temporary storage unit (not shown) and image information from the image storage unit 103 as a transmission signal to the verification terminal 200, the communication interface 108 performs phase modulation on the radio carrier wave by the transmission signal. It has a function of obtaining a radio transmission wave, amplifying the power of the radio transmission wave to a predetermined level, and then outputting the amplified radio transmission wave to the antenna 110. The radio transmission wave is radiated from the antenna 110 as a radio wave.

  The collation terminal 200 collates a registered iris information holding unit 201 that holds a registered iris code registered in advance, an iris code generated from image information acquired by photographing, and a registered iris code that is registered in advance. A verification unit 202 that performs personal authentication, a display unit 203 that displays a verification result, a communication unit 204 for wireless communication with the portable camera 100, and an antenna 205 for wireless communication with the portable camera 100. .

  When the registered iris information holding unit 201 receives the iris code associated with the user ID from the matching unit 202, the registered iris information holding unit 201 holds the iris code as a registered iris code so that the user ID can be searched.

Upon receiving the operation mode signal indicating the verification mode and the image information for one frame from the portable camera 100, the verification unit 202 encodes the feature pattern of the iris image obtained by cutting out the iris portion from the image information using image processing technology. Generate iris code. Next, the collation unit 202 reads the registered iris code held in the registered iris information holding unit 201, authenticates the person by collating the registered iris code and the generated iris code, and indicates the authentication result. The authentication information is output to the display unit 203.
In the registration mode, the collation unit 202 outputs the generated iris code to the registration iris information holding unit 201 and causes the registration iris information holding unit 201 to hold the iris code in association with the user ID.

  When receiving the authentication information from the collating unit 202, the display unit 203 displays an authentication result based on the authentication information.

The communication unit 204 performs wireless communication with the portable camera 100 via the wireless communication line 300.
When the communication unit 204 acquires a received signal from the antenna 205 that has received the radio wave from the portable camera 100, the communication unit 204 first amplifies the received signal with a low noise amplifier, and frequency-converts the received signal to an intermediate frequency with a mixer. Next, after removing unnecessary waves contained in the received signal by a filter, the received signal is amplified by a high gain amplifier and demodulated to obtain an operation mode signal and image information. The acquired operation mode signal and image information are output to the collation unit 202.

FIG. 2 is a diagram illustrating a relationship between the camera movement range and the recognition effective range at the time of photographing an eye image.
FIG. 3 is a flowchart of the iris authentication system of the first embodiment.
The operation of the iris authentication system according to the first embodiment will be described with reference to FIGS.
When the user 11 captures an eye image using the portable camera 12, the distance D from the portable camera 12 to the user's 11 eye (iris) is effective for recognition to acquire image information effective for personal authentication. An operation example for guiding the user until the user enters the range 16 will be described.
As shown in FIG. 2, the user 11 moves the portable camera 12 within the camera movement range 14 according to the guidance guidance so that the distance D falls within the recognition effective range 16.

The motion detection unit 104 detects the motion of the portable camera 12 and outputs a detection signal indicating the motion to the stillness determination unit 105 (step S301). When the stationary determination unit 105 receives the detection signal from the motion detection unit 104, the stationary determination unit 105 determines whether the portable camera 100 is stationary based on the detection signal (step S302). If the portable camera 12 is moving, the process returns to step S301, and if the portable camera 12 is stationary, the process proceeds to step S303.
The distance measuring unit 106 measures the distance D from the portable camera 12 to the user's eye (iris) (step S303), and determines whether the distance D is within the recognition effective range 16 (step S304). ). If it is determined that the distance D is outside the effective recognition range 16, the process proceeds to step S305. If it is determined that the distance D is within the effective recognition range 16, the process proceeds to step S308.

  The distance measuring unit 106 determines whether or not the distance D measured in step S303 is far beyond the recognition effective range 16 (step S305). When the distance D is far beyond the recognition effective range 16, the distance measuring unit 106 outputs a position correction signal indicating that the portable camera 12 is too far to the voice guidance output unit 107. Upon receiving the position correction signal, the voice guidance output unit 107 outputs guidance guidance to correct the position of the far camera (step S306). For example, a sound such as “Please bring the camera closer” is output.

When the distance measurement unit 106 determines that the distance D is close outside the effective recognition range 16, the distance measurement unit 106 outputs a position correction signal indicating that the portable camera 12 is close to the voice guidance output unit 107. When the voice guidance output unit 107 receives the position correction signal, the voice guidance output unit 107 outputs guidance guidance to correct the position of the near camera (step S307). For example, a sound such as “Please move your camera further” is output.
The voice guidance output unit 107 outputs guidance guidance to guide the user 11 until the distance D from the portable camera 12 to the user's eyes (iris) falls within the recognition effective range 16, from step S301 to step S307. Repeat the process up to.

  Thereafter, in step S304, if the distance measurement unit 106 determines that the distance D measured in step S303 is within the recognition effective range, the portable camera 100 captures the eye image of the user 11 by the imaging unit 102. The image information including the iris is acquired, the image information for one frame acquired and temporarily stored in the image storage unit 103, and the operation mode signal temporarily stored in the temporary storage unit (not shown) are collated. 200 (step S308). When the collation terminal 200 receives the operation mode signal from the portable camera 100 and image information for one frame from the collation unit 202, the collation terminal 200 generates an iris code indicating the feature pattern of the iris image obtained by cutting out the iris portion from the image information. Next, the registered iris code is read from the registered iris information holding unit 201, the registered iris code and the generated iris code are collated to authenticate the user, and the display unit 203 displays the authentication result (step S309). .

In the above description, an example in which the portable camera 100 is used has been described, but a stationary camera may be employed as a camera that captures a user's eye image.
In this case, the iris authentication system generates two iris images from an image storage unit that holds image information of a plurality of frames captured by a stationary camera, and two pieces of image information that are continuous in time series. A motion detection unit that compares two iris images and outputs a detection signal indicating the comparison difference; and a stillness determination unit that determines a user's movement based on the magnitude of the detection signal output from the motion detection unit. It may be.
In the above description, an example in which data is transmitted and received between the portable camera 100 and the verification terminal 200 via the wireless communication line 300 has been described. However, a mobile phone incorporating a verification unit and a registered iris information holding unit is described. The type camera can adopt a system configuration that realizes collation processing in the terminal.

  According to the iris authentication system 10 of the first embodiment, the portable camera 100 that captures a user's eye image includes a motion detection unit 104 that detects whether or not the user is stationary and outputs a detection signal. A stillness determination unit 105 that determines whether the subject is stationary based on the detection output, a photographing unit 102 that acquires image information when the stationary determination unit 105 determines that the subject is stationary, and the image A distance measurement unit 106 that measures the distance between the user's eye and the user's eye based on the information, and the distance measured by the distance measurement unit 106 must be maintained in order to acquire image information effective for personal authentication A voice guidance output unit 107 that outputs voice guidance for guiding the user so that the distance falls within the recognition effective range when the distance is outside the effective recognition range. When it is determined that the user is stationary, the voice guidance output unit 107 outputs a voice guidance to a user who decides the next action and guides the distance in a timely manner within the effective recognition range. Therefore, it is possible to guide the user well using voice guidance.

  According to the voice guidance described above, the same guidance guidance is not repeated, and the guidance guidance is not interrupted and the user does not get lost. Can be determined in a timely manner, and the time required to guide the user can be shortened.

  Some portable cameras that capture an eye image include a display screen that displays an eye image, and when the eye image is captured, the portable camera guides the user by displaying the eye image. ing. However, when the display screen of a portable camera is used outdoors, it is often difficult to guide sufficiently because it is difficult to see due to reflected light. On the other hand, the voice guidance of the portable camera 100 can effectively guide the user by voice without depending on the screen display. That is, the voice guidance of the present invention can guide the next action when the user who has acted according to the voice guidance is stationary without opening the user from the hard-to-see display screen and without irritation.

It is a block diagram of the iris authentication system of Example 1. It is a figure which shows the relationship between the camera movement range at the time of imaging | photography of an eye image, and the recognition effective range. It is a flowchart of the iris authentication system of Example 1.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Iris authentication system 100 Portable camera 101 Operation part 102 Image | photographing part 103 Image memory | storage part 104 Motion detection part 105 Stillness determination part 106 Distance measurement part 1061 Eye position detection part 1062 Iris diameter measurement part 1063 Imaging distance data storage part 1064 Distance determination part DESCRIPTION OF SYMBOLS 107 Voice guidance output part 108 Communication interface 109 Control part 110 Antenna 200 Collation terminal 201 Registration iris information holding part 202 Collation part 203 Display part 204 Communication part 205 Antenna 300 Wireless communication line

Claims (4)

Personal authentication by collating a portable terminal having a photographing means for photographing a user's eye image and acquiring image information, an iris code generated from image information received from the portable terminal, and a registered iris code registered in advance In an iris authentication system with an authentication device that performs
The portable terminal is
A motion detector that detects the presence or absence of self and outputs a detection signal;
A stationary determination unit for determining whether the self is stationary based on the detection signal;
When it is determined that the stationary determination unit is stationary, an operation control unit that operates the photographing unit;
A distance measuring unit that measures a distance from the user's eyes based on the image information acquired by the photographing unit;
If the distance measured by the distance measuring unit is outside the recognition effective range that must be maintained in order to acquire image information effective for personal authentication, the user is set so that the distance falls within the recognition effective range. A voice output unit that outputs voice guidance for guidance;
An iris authentication system, comprising: a transmission unit that transmits image information acquired by the imaging unit to the authentication device when the distance measured by the distance measurement unit is within the recognition effective range. The portable terminal is a portable camera;
The iris authentication system according to claim 1, wherein the motion detection unit is an acceleration sensor built in the portable camera. A stationary terminal having a photographing means for photographing a user's eye image and acquiring image information is compared with an iris code generated from image information received from the stationary terminal and a registered iris code registered in advance. In an iris authentication system equipped with an authentication device for authenticating the person,
The stationary terminal is
A motion detector that detects whether the user is stationary and outputs a detection signal;
A stationary determination unit that determines whether the user is stationary based on the detection signal;
When it is determined that the stationary determination unit is stationary, an operation control unit that operates the photographing unit;
A distance measuring unit for measuring a distance between the user's eyes and the user's eyes based on the image information acquired by the photographing unit;
If the distance measured by the distance measuring unit is outside the recognition effective range that must be maintained in order to acquire image information effective for personal authentication, the user is set so that the distance falls within the recognition effective range. A voice output unit that outputs voice guidance for guidance;
An iris authentication system, comprising: a transmission unit that transmits image information acquired by the imaging unit to the authentication device when the distance measured by the distance measurement unit is within the effective recognition range. The stationary terminal is a stationary camera, and includes an image storage unit that holds image information of a plurality of frames taken;
The motion detection unit generates two iris images that are continuous in time series from image information of a plurality of frames obtained by photographing a user, compares the two iris images, and detects a difference between the comparisons. The iris authentication system according to claim 3, wherein:

Images