KR20050094215A - Indicating method for location guide of iris recognized system - Google Patents

Abstract

The present invention discloses a method for displaying a location guide of an iris recognition system. According to an aspect of the present invention, there is provided a method of displaying a location guide of an iris recognition system, comprising: acquiring an image of a state in which first and second lights are turned on by a first camera; Acquiring an image of a state in which the first illumination and the second illumination are respectively turned on by the second camera; Calculating a distance by analyzing all the acquired images; Identifying a location of the user based on the calculated distance and displaying a location guide; When the user is positioned on the location guide display, the method includes the step of attempting iris recognition.

In the position guide display method of the iris recognition system according to the present invention, a distance may be calculated from an image acquired using two cameras having different positions and two lights, and may be guided to a user recognizable position.

Description

Location guide display method of iris recognition system {INDICATING METHOD FOR LOCATION GUIDE OF IRIS RECOGNIZED SYSTEM}

The present invention relates to a method for displaying a location guide of an iris recognition system, and in particular, a location guide display of an iris recognition system for guiding a user to a recognizable location by calculating a distance from an image acquired using two cameras having different positions and two lights. It is about a method.

As is known, it is a system for security, crime prevention, and identity authentication. It goes beyond the existing contact or contactless card system to recognize human fingerprints, or to authenticate identity through iris recognition and access to specific places or access to specific information. Systems to allow or deny such have been prevalent.

Among them, the iris recognition system has a high recognition rate and more accurate recognition than the fingerprint recognition. The iris recognition system is a system that authenticates an individual by comparing a characteristic pattern of an iris with an image processing technology in an iris image captured by a video camera and comparing it with previously registered iris data.

FIG. 1 is a diagram schematically illustrating a configuration of a general iris recognition system. Referring to FIG. 1, an operation of an iris recognition system is as follows.

When the user approaches the iris recognition system, the distance measuring sensor 109 measures the distance to the user, and the controller 105 receives the distance measurement value obtained through the driver 107 to operate the distance measurement value. Determine if you are in range.

If the user is within the operating range, a control signal is sent to the driver 107 to prepare to extract the iris image. The driver 107 sends an active signal to the external indicator 108 to inform the user that the system is operating. Accordingly, when the user places the eye on the optical axis of the camera 103 through the optical window 101, the cold mirror ( 102 blocks visible light and passes infrared light. In addition, the part where the iris should be positioned is displayed so that the user can check whether the eye is located on the optical axis of the camera 103.

The controller 105 receives the distance measurement value from the distance measurement sensor 109 to the user, and calculates the zoom and focus values of the camera 103 using the distance measurement value to perform zoom in / zoom out and focusing control. Perform. Thereafter, the controller 105 allows the driver 107 to capture the iris image according to the distance measurement value, and the photographed iris image is signal-processed in the frame grabber 104 for iris image analysis, and the processed iris is processed. The image information is stored in the DB (database) 110, and the controller 105 performs iris recognition with the stored information to determine whether the user is authenticated.

On the other hand, in such an iris recognition system, the performance depends on how fast and how accurately the iris recognition is performed. Moreover, in the general iris recognition system of this technical field, the user may approach the iris recognition system, and may cause a problem as to whether or not the iris is correctly positioned on the optical axis of the camera. Allows fast and accurate iris recognition.

However, in the iris recognition system as described above, the display of the location to the user is a method of providing a location guide display only when the distance is close or far, so that the eyes cannot be accurately aligned within the operating range by the left and right. Is generated.

An object of the present invention is to provide a location guide display method of an iris recognition system for calculating a distance from an image acquired using two cameras having different positions and two lights and guiding the user to a recognizable location.

Location guide display method of the iris recognition system according to the present invention to achieve the above object,

Acquiring an image of a state in which the first illumination and the second illumination are respectively lit by the first camera;

Acquiring an image of a state in which the first illumination and the second illumination are respectively turned on by the second camera;

Calculating a distance by analyzing all the acquired images;

Identifying a location of the user based on the calculated distance and displaying a location guide;

When the user is positioned on the location guide display, the method includes the step of attempting iris recognition.

Here, in particular, the first camera and the second light is located on the right side, the second camera and the second light is characterized in that located on the left side.

Here, in particular, in the step of calculating the distance by analyzing all the acquired images, the characteristic of the feature is that the difference image of the two images taken after turning on and off the illumination respectively.

In this case, in particular, in the step of displaying the position guide, there is a feature in that the user can be instructed in the front, rear, left and right directions.

According to the present invention, it is possible to calculate a distance from an image acquired using two cameras and two lights having different positions, and guide the user to a recognizable position.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a view schematically showing the configuration of an optical unit of the iris recognition system according to the present invention. As shown therein, the optical unit includes: a first camera 202 and a second camera 204 provided at different positions in order to acquire an iris image of a user; A position display unit 203 for informing the user of the recognition range position display; It is configured to include the first and second lighting units 201 and 205 provided at different positions to irradiate light.

Although not shown in FIG. 2, the optical unit includes a distance measuring sensor that measures a distance between the camera and the eye of the user and determines whether the user approaches a recognizable distance; A control device for performing zoom in / zoom out and focusing control by calculating zoom and focus values of the camera; A driver for preparing to extract an iris image by sending a control signal when the user is within an operating range; An external indicator for sending an active signal from the driver to inform the user that the system is operating; An optical window for guiding a user to position the eye on the optical axis of the camera; A frame grabber for signal processing by analyzing an iris image captured by the camera; It further comprises a DB (database) for storing the iris image information signal-processed in the frame grabber.

At this time, the control device receives the distance measurement value from the distance measurement sensor to the user, and calculates the zoom and focus values using the distance measurement value to perform zoom in / zoom out and focusing control.

Thereafter, the control device is to take an image of the iris through the driver according to the distance measurement value, and to determine whether the user is authenticated by performing iris recognition on the control device with the stored information.

The lighting device unit when the user approaches the iris recognition system to recognize the iris, the lighting control unit for adjusting the brightness of the light, if it is determined that the recognition distance from the distance measuring sensor; It comprises an image processing unit for processing the iris image obtained according to the brightness of the light control unit.

3 is a flowchart illustrating a method of displaying a location guide of an iris recognition system according to the present invention. As shown in the drawing, first, the first camera 202 acquires an image in a state where the first light 201 is turned on, and the step of acquiring an image in a state where the second light 205 is turned on is performed. (S301).

Then, the second camera 204 acquires an image in a state where the first light 201 is turned on, and acquires an image in a state where the second light 205 is turned on (S302).

Subsequently, a step of calculating a distance by analyzing all the acquired images is performed (S303).

In more detail, distance information is obtained by analyzing which position appears in the image opposite to the first and second illuminations 201 and 205. The area from which this distance information can be obtained becomes a measurable range, and the range is about 200 mm to 500 mm.

In addition, as the analysis image, the difference image of the two images taken after turning on / off the lighting is used.

In addition, Figure 4 is a view showing a state for each location of the user in the location guide display method of the iris recognition system according to the present invention. As shown here, it is the type of user location and status being approached in front of the optical unit to attempt iris recognition.

In other words, 1) means that the user is within the measurable range, and the optical unit is looking straight at the center; If you are looking at the optical unit, 4) and 5) are looking at the optical unit slightly to the right or to the left in the range where distance measurement is impossible. Case 7) is located outside the measurable range, i.e., there is no iris recognition attempter.

Subsequently, after determining the user's location by the calculated distance, the step of displaying the location guide is performed (S304).

On the other hand, Figure 5 is a view showing a reference table for dividing the state of each user location in the location guide display method of the iris recognition system according to the present invention. As shown in the figure, I _L C _L is the left straight light signal in the image from the left camera, I _L C _R is the left straight light signal in the image from the right camera, I _R C _L is the left When the image from the camera shows the right straight light signal, I _R C _R indicates that the image of the right straight light signal appears in the image from the right camera.

In more detail, the first illumination (right) 201 and the second illumination (left) 205 signals are displayed in both the images obtained from the first camera (right) 202 and the second camera (left) 204. If it appears. In this case, only the front and back are indicated so as to be located in the recognizable section.

Similarly, 2) and 3) of FIG. 4 are cases where only one illumination signal appears and the user is biased to the right or left. At this time, it is marked (indicating) so that it can move slightly to the opposite side of the biased position.

For example, when the lighting signal is shown as 2), the user is inclined to the left based on the optical unit, so that the user may move to the right.

In addition, when the straight light signal is displayed as 4), 5) or 6), the optical unit is viewed from a position closer than the recognizable area, so that the direct illumination signal is moved to the back.

If no illumination signal appears at all, as in 7), there is no iris recognition attempt, so no special marking is required.

For reference, if the difference between the two distances calculated from the I _L C _R and I _R C _L images is larger than the acceptable level, the user may display the optical unit in a distorted state.

When the user is positioned on the location guide display, an attempt to recognize the iris is performed (S305). In this case, after the step of attempting iris recognition is applied to the general method, a detailed description thereof will be omitted.

Although the present invention has been described with reference to the embodiments illustrated in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

As described above, the position guide display method of the iris recognition system according to the present invention may calculate a distance from an image acquired using two cameras having different positions and two lights, and guide the user to a recognizable position.

1 is a view schematically showing the configuration of a general iris recognition system.

2 is a view schematically showing the configuration of an optical unit of the iris recognition system according to the present invention.

Figure 3 is a flow chart for the location guide display method of the iris recognition system according to the present invention.

Figure 4 is a view showing a state for each location of the user in the location guide display method of the iris recognition system according to the present invention.

5 is a view showing a reference table for dividing a state of each user's position in the position guide display method of the iris recognition system according to the present invention.

<Description of the symbols for the main parts of the drawings>

201 --- First lighting unit 202 --- First camera

203 --- Position indicator 204 --- First camera

205 --- Second lighting unit

Claims (4)

Acquiring an image of a state in which the first illumination and the second illumination are respectively lit by the first camera; Acquiring an image of a state in which the first illumination and the second illumination are respectively turned on by the second camera; Calculating a distance by analyzing all the acquired images; Identifying a location of the user based on the calculated distance and displaying a location guide; And when the user is positioned on the location guide display, attempting to recognize the iris. The method of claim 1, And the first camera and the second light are located at the right side, and the second camera and the second light are located at the left side. The method of claim 1, In the step of calculating the distance by analyzing all the acquired images, the location guide display method of the iris recognition system, characterized in that using the difference image of the two images taken after the lighting on / off respectively. The method of claim 1, Position display method of the iris recognition system, characterized in that in the step of displaying the position guide can be directed to the user in the front and rear, left and right directions.