KR100518877B1 - Method for iriscode making of iris image using of several light - Google Patents

Abstract

The present invention discloses a method for generating an iris code of an iris image using multiple lights. An iris code generation method of an iris image using multiple lights according to the present invention includes the steps of: acquiring a predetermined number of iris images according to lighting of a plurality of lights according to respective positions; Generating respective iris codes from a predetermined number of iris images acquired in accordance with the illumination; Generating respective control bits for the same location of the iris code to determine valid bits in each of the iris codes generated from the predetermined number of iris images; Determining whether a ratio of valid bits in each of the generated control bits is a predetermined number or more; Determining and generating a valid bit of a fusing control bit when the valid bit ratio is greater than or equal to a predetermined number in the determining a valid bit ratio of each of the generated control bits; Comparing an iris code bit and a control bit at each position corresponding to the valid bit of the generated fusing control bit to determine whether a ratio having the same bit value is equal to or greater than a predetermined value; Comparing the iris code bits of the respective positions with the control bits to determine whether a ratio having the same bit value is greater than or equal to a predetermined value. And determining and generating the same value.

Description

IRIS code generation method of iris image using multiple lighting {METHOD FOR IRISCODE MAKING OF IRIS IMAGE USING OF SEVERAL LIGHT}

The present invention relates to a method for generating an iris code for an iris image using multiple lights, and in particular, to generate and register a single iris code by combining each iris code generated from images acquired by multiple lights. The present invention relates to a method of generating an iris code for an iris image using multiple lights, which can reduce the time required for iris recognition.

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.

1 is a view schematically showing the configuration of a general iris recognition system using multiple illumination, Figure 2 is a flow chart for the iris registration method using the iris multiple illumination according to FIG. As shown therein, when the user first approaches the iris recognition system to register an iris image and places an eye on the optical axis of the camera 101 through an optical window (not shown), the illumination control unit 103 The lighting iris of the user is illuminated by turning on one of the lights 104, 105, and 106 of the lighting apparatus having a plurality of lights having different positions, respectively (S201).

If you turn on the light on the left side, you get a bright iris image on the left side, and you get a dark iris image on the right side.

When the illumination illuminates the user's iris at different positions, the camera 101 acquires an iris image having a different pattern for each user, and analyzes the acquired iris image in a frame grabber (not shown) to obtain a digital signal. Processing is made (S202). That is, in FIG. 2, the image processing unit 102 processes the acquired iris image as a digital signal.

Then, it is determined whether all the iris images have been acquired according to the position of the lighting (S203). If the iris image is not acquired for each position of the lighting, the illumination is changed to acquire all of the positions.

Subsequently, an iris code is generated by applying the iris algorithm of the controller to the image of the iris for each position of the light processed by the digital signal (S204). The generated iris code is registered in the iris code database managed separately according to the position of the lighting (S205). Therefore, the iris code of the iris obtained by turning on the left light is managed only by the iris codes, and the iris code of iris obtained by turning on the right light is managed only by the iris codes.

Therefore, the iris code is generated and registered for as many iris images as the lighting is located.

3 is a flowchart illustrating an iris recognition method using multiple illuminations of a conventional iris recognition system, which will be described with reference to FIG. 1. As shown here, the iris recognition method using multiple illumination of the iris recognition system, the user approaches the iris recognition system to recognize the iris image, the eye on the optical axis of the camera 101 through an optical window (not shown) When positioned, the lighting control unit 103 turns on one of the lighting devices 104, 105, 106 of the plurality of lighting devices having different positions to illuminate the user's iris (S301).

When the illumination illuminates the user's iris at different positions, the camera 101 acquires an iris image having a different pattern for each user, and analyzes the acquired iris image in a frame grabber to perform digital signal processing. (S302).

An iris code is generated by applying the iris algorithm of the controller to the image of the iris processed into the digital signal (S303). The generated iris code is compared with iris codes in an iris code database that is already separated and registered according to the same lighting position (S304). Here, if the left light is turned on when the iris code is generated, the iris code is compared with the registered iris codes while the left light is turned on in the database.

Thereafter, comparing to search for an iris code equal to or more than a predetermined ratio by comparison is performed (S305). Here, the value above a certain ratio means a value already set in the algorithm. If the iris code equal to or greater than the predetermined ratio is found and present in the database, the user is notified of the recognition (S306).

On the other hand, if recognition fails because it is not searched, the lighting position is changed again to turn on the right light to generate the iris code, and the search is made with the iris codes registered while the right light in the database is turned on.

Therefore, in the iris recognition system having a plurality of lights, the iris image is registered and recognized for each position of the light in the same manner as described above.

However, since the iris codes registered according to the illumination by the above method are compared with the iris codes for each image when the iris is recognized by the user, the recognition time becomes long.

According to the present invention, a plurality of iris codes are generated by combining each iris code generated from images acquired by plural lights to generate and register a single iris code, thereby reducing the capacity of the database and reducing the recognition time during iris recognition. An object of the present invention is to provide an iris code generation method of an iris image using illumination.

In order to achieve the above object, an iris code generation method of an iris image using multiple lights according to the present invention,

Acquiring a predetermined number of iris images according to lighting of a plurality of lights according to respective positions;

Generating respective iris codes from a predetermined number of iris images acquired in accordance with the illumination;

Generating respective control bits for the same location of the iris code to determine valid bits in each of the iris codes generated from the predetermined number of iris images;

Determining whether a ratio of valid bits in each of the generated control bits is equal to or greater than a predetermined value;

If the valid bit is greater than or equal to a predetermined value in the step of determining the valid bit ratio of each of the generated control bits, determining and generating the valid bit of the fusing control bit;

Comparing the iris code bits at each position corresponding to the valid bits of the generated fusing control bits with the control bits to determine whether a ratio having the same bit value is greater than or equal to a predetermined value;

Comparing the iris code bits of the respective positions with the control bits to determine whether a ratio having the same bit value is greater than or equal to a predetermined value. It is characterized in that it comprises the step of generating by determining a value such as.

Here, in particular, in the determining whether the ratio of valid bits in each of the generated control bits is greater than or equal to a predetermined value, determining and generating the invalid bits of the fusing control bits when the ratio of valid bits is less than a predetermined value. It has that feature.

Here, in particular, in the step of determining whether the ratio of valid bits in each of the generated control bits is equal to or greater than a predetermined value, the predetermined value is characterized by being more than a majority.

Here, in particular, in the step of comparing the control bit with the iris code bit at each position corresponding to the valid bit of the generated fusing control bit and determining whether the ratio having the same bit value is equal to or greater than a predetermined value, There is a characteristic in comparison.

Here, in particular, comparing the iris code bits and the control bits of each position corresponding to the valid bits of the generated fusing control bits to determine whether a ratio having the same bit value is equal to or greater than a predetermined value. If the ratio is less than the predetermined value, it is characterized in that it further comprises the step of determining and generating the invalid bit of the fusing iris code again.

Here, in particular, in the step of comparing the control bits with the iris code bits at each position corresponding to the valid bits of the generated fusing control bits, the predetermined value is 2 / It is characterized by three or more points.

According to the present invention as described above, by combining and generating each iris code generated from images acquired by a plurality of lights as a single iris code, the size of the database can be reduced and the recognition time can be shortened during iris recognition. Can be.

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

4 is a flowchart of an embodiment of a method of generating an iris code of an iris image using multiple lights according to the present invention. As shown in the drawing, in the method of generating an iris code of an iris image using multiple lights, first, a predetermined number of iris images are acquired according to lighting of a plurality of lights according to respective positions (S401).

FIG. 5 is a diagram illustrating iris images acquired after lighting left and right lights according to the present invention, respectively. FIG. As shown therein, after turning on the left side lighting, the focus is adjusted to obtain several iris images, and after the right side lighting up, the focus is adjusted to acquire several iris images.

More specifically, four images each having a good state are acquired from several iris images captured by the acquired left and right illuminations.

In operation S402, a step of generating each iris code is performed from a predetermined number of iris images acquired according to the illumination.

FIG. 6 is a diagram illustrating an generated iris code according to the iris image of FIG. 5. As shown in the figure, an iris code is generated for each of the eight iris images.

Subsequently, generating each control bit for the same position of the iris code is performed to determine a valid bit in each of the iris codes generated from the predetermined number of iris images (S403).

FIG. 7 is a diagram illustrating a fusing control bit of a control bit and a control bit according to the iris code of FIG. 6. As shown in the figure, it is determined whether each code is a bit indicating valid information in the generated eight iris codes, and if it is valid information, a control bit is also generated as a valid bit, and if it is not a bit indicating valid information, the control bit By treating as an invalid bit, eight control bits of each position are generated.

Next, a step of determining whether a ratio of valid bits in each of the generated control bits is a predetermined number or more is performed (S404).

Subsequently, if the valid bit is greater than or equal to a predetermined value (S405) in the step of determining the valid bit ratio of each of the generated control bits, determining and generating the valid bit of the fusing control bit is performed (S406).

More specifically, by comparing the eight control bits of each generated position, if the number of valid bits is more than four (4), the value of one fusing control bit to be generated is determined to be generated as valid bits. do.

On the other hand, if it is determined that the ratio of valid bits in each of the generated control bits is greater than or equal to a predetermined value, the fusing control bit value is determined as an invalid bit if the ratio of the valid bits is less than four (four). It is generated by (S410).

Therefore, one determined fusing control bit is generated by combining the determined invalid bits.

Here, since the majority of the eight control bits according to the eight iris iris codes are four in determining the invalid bits of the fusing control bits according to the ratio of the valid bits, four or more bits become valid bits.

Next, a step of comparing the iris code bit and the control bit at each position corresponding to the valid bit of the generated fusing control bit and determining whether a ratio having the same bit value is equal to or greater than a predetermined value is performed (S407).

More specifically, the control bits to be compared compare only the valid bits with the iris code bits to determine whether a ratio having the same bit value is greater than or equal to a predetermined value.

Here, comparing the iris code bit and the valid bit of the control bit is to check whether the iris code bits of the same position are consistent even if the valid bit of the control bit is valid.

Subsequently, comparing the iris code bits and the control bits of the respective positions to determine whether the ratio having the same bit value is greater than or equal to a predetermined value, and if the ratio having the same bit value is greater than or equal to the predetermined value (S408), fusing iris The step of generating the code by determining the same value as the control bit is performed (S409).

FIG. 8 is a diagram illustrating the fusing control bit generated by FIG. 7 and the fusing iris code bit determination according to the iris code of FIG. 6. As shown in the drawing, if the ratio having the same bit value is greater than or equal to 2/3 by comparing the control bit with the iris code bit at each position corresponding to the valid bit of the generated fusing control bit, the bit of the fusing iris code to be generated. Becomes a valid bit.

That is, assuming that six valid bits of the control bit are assumed, and five of the iris code bits at the same position are zero and one is one, the fusing iris code bit is zero.

On the other hand, comparing the iris code bits at each position corresponding to the valid bits of the generated fusing control bits and the control bits to determine whether a ratio having the same bit value is greater than or equal to a predetermined value. If less than the predetermined value, it is determined again as an invalid bit of the fusing iris code bit (S411).

That is, assuming that four valid bits of the control bit are present, and two of the iris code bits of the same position are 0 and the other two are 1, the fusing iris code bits are invalidated again.

This means that the iris code bits representing the iris pattern are determined to be inconsistent and will not be used when the code itself at the position is invalidated and recognized.

When one fusing iris code is generated and registered by the above method, it can be recognized more quickly at the time of iris recognition.

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 method for generating an iris code of an iris image using multiple lights according to the present invention is to generate data by combining each iris code generated from images acquired by multiple lights to generate and register one iris code. The capacity of the base can be reduced, and the recognition time can be shortened at the time of iris recognition.

1 is a view schematically showing the configuration of an iris recognition system using a general multiple illumination.

Figure 2 is a flow chart for the iris registration method using the iris multiple illumination according to FIG.

Figure 3 is a flow chart illustrating an iris recognition method using multiple illumination of the conventional iris recognition system.

Figure 4 is a flow chart of an embodiment of a method for generating an iris code of an iris image using multiple lights according to the present invention.

5 is a view showing the iris images obtained after the left and right lighting according to the present invention, respectively.

6 is a diagram illustrating an iris code generated according to the iris image of FIG. 5.

FIG. 7 is a diagram illustrating a fusing control bit of a control bit and a control bit according to the iris code of FIG. 6.

FIG. 8 is a diagram illustrating a fusing control bit generated by FIG. 7 and a fusing iris code bit determination according to the iris code of FIG.

Claims (6)

Acquiring one or more iris images according to the lighting of the plurality of lights according to each position; Generating each iris code from one or more iris images acquired in accordance with the illumination; Generating respective control bits for the same location of the iris code to determine valid bits in each iris code generated from the one or more iris images; Determining whether a ratio of valid bits in each of the generated control bits is 1/2 or more; If the valid bit is 1/2 or more in the step of determining the valid bit ratio of each of the generated control bits, determining and generating the valid bit of the fusing control bit; Comparing an iris code bit at each position corresponding to the valid bit of the generated fusing control bit and a control bit to determine whether a ratio having the same bit value is 2/3 or more; And comparing the iris code bits and the control bits of the respective positions to determine the fusing iris code as the same value as the control bits when the ratio having the same bit value is 2/3 or more. Iris Code Generation Method for Iris Image Using Multiple Lights. The method of claim 1, If the ratio of the effective bit in each of the generated control bit is less than 1/2 value, determining the invalid bit of the fusing control bit and generating the iris code of the iris image using multiple lights . delete The method of claim 1, Iris code generation method of the iris image using a plurality of lights, characterized in that for comparing the effective bit of the control bit and the iris code bits of each position corresponding to the valid bit of the generated fusing control bits. The method of claim 1, Comparing the control bit with the iris code bit at each position corresponding to the valid bit of the generated fusing control bit and determining the invalid bit of the fusing iris code again if the ratio having the same bit value is less than 2/3. Iris code generation method of the iris image using a plurality of lights characterized in that it is further provided. delete