KR100518866B1 - An iris recognation apparatus and method for determining the distance of iris recognition - Google Patents

Abstract

In the iris recognition device and the distance determination method of the iris recognition device according to the present invention, to authenticate whether each person has a legitimate use authority for the operation of the device or performing a certain task using the iris of their own different eyes. If the user receives the iris data from the user and judges that the user has the proper authority, the user can be authorized to perform the following operation or operation, and if it is determined that the user does not have the proper authority, the following operation or operation is performed. An apparatus and method for determining whether an iris camera user is located at a predetermined proper distance from the front of the iris recognition camera so that the iris camera user is at an optimal position for recognizing the iris An iris recognition distance according to the present invention When the iris recognition method using a distance indicating device comprises: a first step to determine the user's access to determine the distance between the camera and the iris user; A second step of comparing the determined distance with a preset distance; And a third step of displaying the comparison result through the lens center of the iris camera.

The apparatus of the present invention compares the distance between the user and the iris camera in a iris camera without using a speaker and compares it with a predetermined optimal distance, and visually informs the iris camera user without using a voice. It is effective to receive data without error.

In addition, as another effect of the present invention, not only improves the reliability of the iris recognition function, but also gazes at the lens of the iris camera and at the same time follows the distance indication by visual rather than voice through the lens, thereby affecting the influence of the environment such as noise of the surroundings. The user's convenience is improved, and since there is no need for a separate speaker, the size of the device can be reduced.

Description

An iris recognation apparatus and method for determining the distance of iris recognition

The present invention compares the distance between the user and the iris camera with a preset optimal distance when the user stares at the lens of the iris camera, and visually informs the iris camera user through the lens without using a voice, The present invention relates to an iris recognition device and a distance determination method of an iris recognition device that not only increase the reliability of an iris recognition function by receiving iris data without error, but also enhance user convenience.

1 is a view showing the appearance of a general iris recognition camera.

According to FIG. 1, each person has his or her own unique eye iris, which can be used to operate a specific device or to start a PC to perform certain tasks using the PC. In order to authenticate the authority, if the user receives the iris data from the user and judges that the authority is authorized, the authority is authorized to perform the following operation or operation, and when it is determined that the authority is not legitimate In order to be able to perform the following operations or operations to use the iris camera, the person who wants to use the iris camera to bring his eyes to a certain distance position in front of the window (3) in front of the main body. When the image of the eye is reflected from the center of the window 3, the user's eye is checked to see if the angle of the iris camera is correct, and if the user's eye is not located at the center of the window 3, The angle of the iris camera is adjusted by judging that the direction is misaligned.

Since the main body of the iris camera is rotatably supported on the pedestal 5 by the support 4, the angle of the main body can be easily adjusted by lightly rotating the main body.

After the angle adjustment of the iris camera is finished as described above, the sensor 6 provided in the iris camera detects whether the user has approached the iris camera, and the server computer connected to the iris camera (MIDO) To deliver). Then, the control unit (not shown) of the iris camera determines the distance between the lens 7 of the iris camera and the user's eyes. That is, the distance sensor 8 of the iris camera checks the distance between the lens 7 of the iris camera and the user's eyes.

In general, when the iris camera receives iris data from the user, the server computer compares the pre-stored iris data with the received iris data. When the iris data is input from an appropriate location, the iris is compared. The recognition rate of the iris significantly decreases, such as an error occurs during the authentication process. The control unit provided with the iris camera sets an appropriate distance in advance, and based on this, the appropriate distance is determined.

That is, when the user is located farther than the predetermined distance as described above, when the distance sensor 8 detects the position of the user, the controller determines that the position is farther than the current position. You will be given a command or instruction to access more. In the speaker provided in the conventional iris camera, the above instruction is spoken, and the voice is told to approach closer through the speaker (not shown) provided in the main body of the iris camera. On the contrary, when the user is located closer than the preset distance as described above, the distance sensor 8 detects the position of the user and the controller determines that the user is located at a distance closer to the current position. You will be commanded or instructed to move.

However, since the iris recognition distance indicating device and the indicating method in the conventional iris camera must rely on voice in instructing the user to maintain a proper distance between the iris camera, a speaker must be installed inside the main body and the speaker is small. Or, if the sound intelligibility falls, the user may cause confusion in the instructions of the iris camera. Furthermore, if the speaker is provided as described above, the size of the main body is inevitably increased, so a small camera type iris camera used on a desk or PC monitor can implement an iris camera with a built-in speaker. There is no.

The present invention has been made to solve this problem, and when the user gazes at the lens of the iris camera, the distance between the user and the iris camera is compared with a predetermined optimal distance, and the iris camera user does not use voice but uses the lens. By visually notifying, an object of the present invention is to provide an iris recognition device and a distance determination method of an iris recognition device to receive iris data without error from a user.

An iris recognition device according to the present invention for achieving the above object comprises an iris recognition device, a lens; A distance detecting sensor that emits light in a direction in which a user is located so that a display point is formed at a peripheral position of the iris; An image pickup device for converting an image including an iris shape and the display point of a user input through the lens into an electric signal; To determine the distance between the lens and the user by comparing the distance between the iris and the display point from the electrical signal converted by the image pickup device, and to compare the result with a predetermined distance to display the result through the lens center of the iris camera A control unit for controlling; And a display unit for displaying the comparison result under the control of the control unit. In addition, the distance determination method of the iris recognition apparatus according to the present invention comprises a first step of forming a mark on the subject of the light generated by the light emitting element; A second step of converting an image including the display point and the iris shape into an electrical signal through an image pickup device; And a third step of comparing, by the controller, a distance between the converted electric signal to the display point and the iris and a predetermined distance.

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Hereinafter, a preferred embodiment of an iris recognition distance indicating device and a method according to the present invention will be described with reference to the accompanying drawings.

2 is a view showing the main parts after removing the cover of the iris recognition camera.

Referring to FIG. 2, the iris recognition camera main body is rotatably coupled to the pedestal 5 using the base 10. In the base, a printed circuit board or frame 12 on which most main parts including the lens 7 are mounted is coupled / fixed by screws. In addition to the lens 7, the frame 12 includes an image sensor 11 for converting a user's iris shape input from the lens into an electrical signal and a sensor for detecting whether the user has approached the iris recognition camera. 6) a distance sensor 8 which emits a predetermined light for detecting the distance between the user and the lens 7 and a distance indicator 9 which visually indicates whether the user is in the optimum range of distance from the lens or not. The sensor 6, the distance sensor 8, and the lens 7 are located approximately in front of the frame 12, and the distance indicator 9 of the lens 7 It is located on the rear optical axis.

3 is a block diagram showing the main configuration of the iris recognition apparatus according to the present invention.

Referring to FIG. 3, a lens 7 for receiving an image of an iris of a user is provided at an approximately center portion of the front of the iris camera, and a distance for emitting distance measuring light toward the user at an upper side or a lower side of the lens. A detection sensor 8 is mounted in which the light emitted from the distance detection sensor 8 is directed toward the optical axis of the lens 7. And behind the lens 7 there is a distance indicator (9) to visually indicate whether the user is located farther or closer than a predetermined position from the iris camera, the distance indicator (9) to the user It includes first and second LEDs 14 and 15 indicating to approach further towards the camera or further away from the camera.

And in order to drastically reduce the size of the iris camera, it is necessary to shorten the light path. Therefore, as shown in FIG. 3, the half mirror 13 is used to convert an image including the user's iris incident in the horizontal direction through the lens 7 to the lower direction of the iris camera. In addition to reflecting the image in the downward direction, it also serves to pass light so that the user can identify the distance indication content shown in the rear distance indicator 9.

Underneath the half mirror 13 is an image pickup device 11 for converting an image including an iris of the user into an electrical signal. Thus, the distance between the lens and the user is determined by the image pickup device from the electrical signal. By comparison to a control to display the result through the lens center. In addition, the iris camera is connected to a data server in which iris data is stored. In order to authenticate whether the user's iris is registered as a legitimate user, the iris entered through the lens 7 is compared with the iris registered in the data server. If the authentication is confirmed, a subsequent work is performed to allow the user to pass the door or to allow the use of a personal PC.

However, in general, an iris camera recognizes a user's iris and an error occurs often, which makes it difficult to perform subsequent tasks. This is because the user is too close to an appropriate distance from the iris camera or vice versa. This is because the user's iris recognition rate has fallen because it is located too far from the proper distance.

Therefore, in order to increase the recognition rate, it is necessary to instruct the imaging device to obtain an appropriate iris image by instructing the user to be positioned at an appropriate recognition distance set in the iris camera.

Looking at the process of instructing the iris recognition distance using the iris camera according to the present invention, the user places his eyes in front of the lens, and confirms that the direction is correct to adjust the lens 7 direction, that is, the direction of the camera body This completes the preparation for iris recognition. Continue to look at the lens 7 of the iris camera, but stare at the distance indicator 9 located on the optical axis behind the lens 7 through the lens 7 at this time the distance sensor 8 is the user and the lens ( 7) detects the distance between, and the control unit (not shown) compares the predetermined distance and the detected distance and sends a control signal, according to the control signal, the distance indicator (9) is close to the user or Visually indicate whether it is necessary to back away by using a display device such as an LED light and lighting it separately. When the user adjusts his position to fall within the preset distance range, the distance indicator 9 visually displays it by using the display device. In this case, it is preferable to visually display each display device such as an LED (LED) lamp used separately as described above.

4 is a diagram illustrating a distance indicator in detail in FIG. 2.

Referring to FIG. 4, the distance indicator 9 positioned on the rear optical axis of the lens includes a frame 22, a first and second LEDs disposed on the frame, and a light shield plate 16 positioned between the LEDs. When the LED is located in front of the LED, a distance display window 21 is displayed in which a figure indicating whether a user approaches or retreats is displayed.

5 is an overall block diagram schematically showing an iris recognition distance indicating apparatus according to the present invention.

4 and 5, when the user is located in front of the lens 7, the sensor 6 detects this, and the distance detecting sensor 8 emits light. In this case, the user and the lens If the distance between (7) is close compared to the preset distance, the controller determines this and sends a control signal to the distance indicator (9). The distance indicator visually indicates whether the user is close to the user, backed by the control signal, or whether the current position is within an optimal range for recognizing the iris. That is, when the user needs to step backward, for example, the first LED 14 is turned on, and when the user needs to approach the camera, the second LED 15 is turned on. The LEDs 14 and 15 may include a display unit on which the figure indicating whether the user approaches or retreats is drawn. When the first LED 14 is turned on, the front of the first LED 14 is turned on. The figure drawn on the part and instructed to withdraw is brightly lit, and when the second LED 15 is lit, the figure on the front part of the second LED 15 is instructed and illuminated brightly.

At this time, when the user continuously adjusts his position, the first LED 14 and the second LED 15 light up at the same time when the user is located in the predetermined optimal range. Therefore, the user knows that he is in the correct position and maintains his standing position until the end of iris authentication.

6A is a diagram illustrating an image input to an image pickup device when the user stands closer to the iris recognition camera than the preset distance, and FIG. 6B is an image pickup device when the user stands farther from the iris recognition camera than the preset distance. It is a figure which shows the state of the image input into. Referring to these drawings, the reference distance for the distance between the iris camera and the user is set, and when the user is located at a position corresponding to the reference distance, the iris outside of the user and the distance sensor 8 are emitted to emit light of the user. The distance between one point of light displayed on the face is set as a reference value.

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Here, when the user is located closer to the reference distance, it can be seen that the measured value which is the distance between one point of light emitted from the distance detecting sensor 8 and displayed on the face of the user is larger than the reference value. For example, in FIG. 6A, the measured value is larger than the reference value, and in FIG. 6B, the measured value is smaller than the reference value. Accepting these results, the control unit generates a control signal accordingly.

On the other hand, if the user is located farther than the reference distance, it can be seen that the measured value, which is the distance between one point of light emitted from the distance sensor 8 and displayed on the face of the user, is smaller than the reference value. In this case, the controller generates a control signal accordingly.

Typically, one or more of the above-described distance sensor 8 is used to minimize the error in the distance detection.

7 is a view showing a state of the distance indicated by the distance indicator.

Referring to FIG. 7, the first LED 14 or the second LED 15 emits light according to the control signal of the controller, thereby visually indicating an instruction for the user to approach the iris camera or to space away.

That is, when the user is located closer than the reference distance from the iris camera, the first LED 14 lights up and instructs the user to be farther away from the iris camera. The LED 15 lights up to instruct the user to approach the lower fee.

When the user moves the position based on the instruction by the LED and is positioned at the reference distance, the first LED 14 and the second LED 15 emit light at the same time, and the user is located at the proper reference distance. In order to perform authentication by comparing the iris registered with the data server by receiving the iris costume, the user is required to stay without movement for a while at the current position, which is a reference distance.

As described above, the iris recognition distance indicating device according to the present invention compares the distance detected by the distance sensor and the distance detected by the distance sensor with a predetermined distance to the control signal and outputs a control signal. And a distance indicating unit for visually displaying the control unit and the control signal of the control unit. The distance between the user and the iris camera is compared with a preset optimal distance and visually displayed to the iris camera user. In this case, the iris data can be received without error from the user.

This characteristic idea of the present invention is created by the inventors' long efforts in order to be conveniently applied to iris recognition cameras, etc., and should not be seen as a simple camera lens and distance indicator combination.

The device of the present invention compares the distance between the user and the iris camera with a preset optimal distance and visually informs the iris camera user of the iris camera without using a voice, thereby receiving the iris data without error from the user. .

In addition, as another effect of the present invention, not only improves the reliability of the iris recognition function, but also obeys the distance indication by visual rather than voice, thereby improving the convenience of the user because it is not influenced by the surrounding noise. Since the speaker does not need to be provided, the size of the device can be miniaturized.

1 is a view showing the appearance of a typical iris recognition camera.

Figure 2 is a view showing the main parts after removing the cover of the iris recognition camera.

Figure 3 is a block diagram showing the main configuration of the iris recognition distance indicating apparatus according to the present invention.

4 is a detailed view of a distance indicator in FIG.

5 is a view showing the flow of the iris recognition distance indicating method according to the present invention.

FIG. 6A is a diagram illustrating an image input to an image pickup device when the iris recognition camera is located closer than the preset distance. FIG.

6B is a view illustrating an image input to an image pickup device when the iris recognition camera is farther from a predetermined distance.

7 is a view showing a state of the distance indicated by the distance indicator.

<Description of Symbols for Main Parts of Drawings>

 DESCRIPTION OF SYMBOLS 1st cover 2nd 2nd cover 3 Windows

 4: support portion 5: pedestal 6: sensor

 7 Lens 8 Distance Sensor 9 Distance Indicator

10 base 11 imaging device 12 frame

13: Half Miller 14: First LED 15: Second LED

16 shading plate 17 common display unit 18 access display unit

19: distance display unit 20: indicator fixing hole 21: distance display window

22: indicator frame

Claims (7)

A first step of forming light on the subject by the light generated by the light emitting device; A second step of converting an image including the display point and the iris shape into an electrical signal through an image pickup device; A third step of comparing, by the controller, a distance between the converted electric signal to the display point and the iris and a predetermined distance; And And a fourth step of indicating a direction in which the subject moves in accordance with the compared result. delete delete In the iris recognition device, A lens; A distance detecting sensor that emits light in a direction in which a user is located so that a display point is formed at a peripheral position of the iris; An image pickup device for converting an image including an iris shape and the display point of a user input through the lens into an electric signal; To determine the distance between the lens and the user by comparing the distance between the iris and the display point from the electrical signal converted by the image pickup device, and to compare the result with a predetermined distance to display the result through the lens center of the iris camera A control unit for controlling; An iris recognition device including a display unit for displaying a comparison result under the control of the controller. The method of claim 4, wherein And a half-mirror positioned between the lens and the image pickup device to change the path of the image toward the image pickup device and transmitting light from the display unit. The method of claim 4, wherein And the display unit is at least one light emitter positioned behind the lens. The method of claim 4, wherein And determining, by the controller, a distance between the lens and the user by comparing the distance between the iris and the display point.