KR100467279B1 - Method for Registering Image of Finger Print - Google Patents

Abstract

The present invention relates to a fingerprint image registration method, comprising: generating a predetermined number of fingerprint images (2) by inputting a fingerprint (F) to be registered using the fingerprint acquirer (10) and a fingerprint acquirer Receiving a predetermined number of fingerprint images 2 generated at 10 from the image processor 20 and calculating a plurality of feature points a formed in each fingerprint image 2 (S12), When the feature points a of the plurality of fingerprint images 2 are calculated, the image processor 20 checks whether the feature points a match with each other, and checks whether the feature points a coincide with each other. 3) calculating a step (S13), and when a block 3 having a predetermined size in each of the plurality of fingerprint images (2) is calculated, the image processor 20 is a feature point (a) included in the calculated block (3) If the feature point (a) is matched by checking whether a predetermined number of fingerprint images (2) match The step S14 of generating a registered fingerprint image 2b by sequentially overlapping a predetermined number of fingerprint images 2 may be performed to easily register a fingerprint image.

Description

Method for Registering Image of Finger Print}

The present invention relates to a fingerprint image registration method, and more particularly, to a fingerprint image registration method for storing a fingerprint image according to the shape of a fingerprint formed on a human finger using a fingerprint recognition device in a database.

Fingerprint readers are used in various personal identification procedures such as permits in public offices using Internet communication networks, access control in certain areas requiring security, commerce using credit cards, and deposit and withdrawal from banks. The fingerprint recognition device detects a fingerprint formed on a person's finger and checks the identity so that the identity of the individual can be more accurately identified and prevents an accident due to duplication, theft or loss such as a pass or a key.

The fingerprint recognition device generates a shape of a fingerprint formed on a human finger as an optical signal using a contact light emitting device, and generates the image by using an image sensor such as a CMOS or a charge coupled device (CCD). Generate a signal. In this case, the touch light emitting device generates an optical signal according to the shape of the fingerprint by forming a loop when current is touched by a human finger. The image signal generated by the CMOS or CCD image sensor filters the image signal through an image processor to generate a fingerprint image, and the generated fingerprint image is compared with a fingerprint image previously stored in a database by a fingerprint recognition device. The process confirms the identity of the individual.

As described above, in order to confirm an individual's identity using a fingerprint recognition device, a fingerprint image must be stored in advance in a database. In the conventional method of registering and storing a fingerprint image, the fingerprint recognition device needs to input a fingerprint image more accurately during fingerprint authentication because the fingerprint recognition device sets and inputs and stores a standard of a fingerprint image to be stored in advance in a database. For this reason, fingerprint registration is a complicated problem.

An object of the present invention is to register a fingerprint image by registering the fingerprint image in a database by sequentially inputting the fingerprint image a predetermined number of times when registering the fingerprint image using the fingerprint recognition device and registering the fingerprint image in the database. The present invention provides a method of registering a fingerprint image that can more easily perform a registration operation.

1 is a view showing the configuration of a fingerprint recognition device according to the present invention,

FIG. 2 is a flow chart showing a fingerprint image registration method using the fingerprint recognition device shown in FIG. 1;

3a to 3f are views illustrating a superimposition process of a fingerprint image by

4A to 4K are diagrams illustrating another example of the superimposition process of the fingerprint image.

<Code Description of Main Parts of Drawing>

10: fingerprint reader 11: contact light emitting device

12: Lens 13: Image Sensor

20: Image Processor 30: Database

40: controller

In the fingerprint image registration method of the present invention, a predetermined number of fingerprint images are generated by inputting a fingerprint to be registered using a fingerprint acquirer, and a predetermined number of fingerprint images generated by the fingerprint acquirer are sequentially received by the image processor. Calculating a plurality of feature points formed in each of the fingerprint images, and when the feature points of the plurality of fingerprint images are calculated, the image processor determines whether the feature points coincide with each other, and includes a block having a predetermined size so that the feature points coincide with each other. calculating a block, and if a block having a predetermined size is calculated for each of the plurality of fingerprint images, the image processor determines whether a predetermined number of fingerprint images match based on the feature points included in the calculated block. If a match is found, a predetermined number of fingerprint images are sequentially merged to register the registered fingerprint. And in that it comprises a step that occurs if characteristics.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

1 is a view showing the configuration of a fingerprint recognition device according to the present invention, Figure 2 is a flow chart showing a fingerprint image registration method using the fingerprint recognition device shown in Figure 1, Figures 3a to 3f is a fingerprint image registration process Is an illustration of an embodiment of the present invention.

As shown, the fingerprint image registration method according to the present invention comprises the steps of generating a predetermined number of fingerprint images (2) by inputting the fingerprint (F) to be registered using the fingerprint acquirer (10), Receiving a predetermined number of fingerprint images 2 generated by the fingerprint acquirer 10 sequentially from the image processor 20 to calculate a plurality of feature points (a) formed in each fingerprint image (2) (S12) ) And the feature points a of the plurality of fingerprint images 2 are calculated, the image processor 20 checks whether there is a feature point (a) that matches each other, and sets a predetermined size to include the feature points (a) that match each other. Calculating a block 3 having a predetermined size and a block 3 having a predetermined size in each of the plurality of fingerprint images 2 is included in the calculated block 3. Check whether the predetermined number of fingerprint images 2 match based on the feature point (a). If a match is configured to overlap the fingerprint image 2 of a predetermined number sequentially to step (S14) for generating a registered fingerprint image (2b).

Referring to the configuration and operation of the present invention in more detail as follows.

The fingerprint recognition device used to register the fingerprint image of the present invention is composed of a fingerprint acquirer 10, an image processor 20, a database 30, and a controller 40 as shown in FIG.

The fingerprint acquirer 10 is provided with a contact light emitting element 11, a lens 12, and an image sensor 13. The touch light emitting device 11 of the fingerprint acquirer 10 generates an optical signal according to the shape of the fingerprint F formed on the finger when a human finger is in contact, and the generated optical signal is the lens 12. It is incident to the image sensor 13 through. The image sensor 13 converts the incident optical signal into an image signal, which is an electrical signal, and receives the converted image signal from the image processor 20 to obtain an image signal. Through this process, a fingerprint F to be registered using the fingerprint acquirer 10 is input to generate a predetermined number of fingerprint images 2 as shown in FIGS. 3A, 3B, and 3E (S11). . Here, at least three fingerprint images 2 are required for the predetermined number of fingerprint images 2 to register the fingerprint images 2. Here, the fingerprint image 2 is located in the reference frame 1.

When a predetermined number of fingerprint images 2 are generated in the fingerprint acquirer 10, the predetermined number of fingerprint images 2 are sequentially received by the image processor 20, as shown in FIGS. 3A, 3B, and 3E. A step S12 of calculating a plurality of feature points a formed in each fingerprint image 2 is performed. Here, the feature point (a) of the fingerprint image (2) can be obtained about 30 to 80 when the surface contact the contact light emitting device 11 of the fingerprint acquirer 10 by the image processor 20, the contact light emission In the case of a rotary blade contacting the surface of the element 11, about 100 to 200 pieces are calculated and obtained.

When the feature point (a) of the fingerprint image (2) is calculated, the image processor 20 checks whether there is a feature point (a) that matches each other, and has a block 3 having a predetermined size so that the feature point (a) that matches each other is included. The step (S13) of calculating is performed. In order to calculate a block 3 having a predetermined size, the image processor 20 sets the block 3 by calculating a size such that the fingerprint image 2 includes at least two feature points a corresponding to each other. .

When a block 3 having a predetermined size is calculated in each of the plurality of fingerprint images 2, the image processor 20 may calculate a predetermined number of fingerprint images 2 based on the feature point a included in the calculated block 3. ) And if the feature points (a) match, generating a registered fingerprint image (2) by sequentially overlapping a predetermined number of fingerprint images (2) shown in FIGS. 3A, 3B, and 3E. (S14) is performed.

In order to generate the registered fingerprint image 2, first, the first fingerprint image 2 shown in FIG. 3A and the second fingerprint image 2 shown in FIG. 3B coincide with each other as shown in FIG. 3C. By overlapping with reference to the overlapping fingerprint image (2a) is generated. When the superimposed fingerprint image 2a is generated, the image processor 20 superimposes the superimposed fingerprint image 2a and the third fingerprint image 2 on the basis of the matching block 3 as shown in FIG. Generate and output (2b).

The process of generating the registered fingerprint image 2b in the image processor 20 will be described in more detail. First, the first fingerprint image 2 shown in FIG. 3A and the second fingerprint image 2 shown in FIG. 3B are sequentially formed. When generated as a feature point (a) shown in Figures 3a and 3b is calculated. The feature point (a) is located within each block (3) and pseudo feature point (a) represented by a black or white circle located outside the block (3), as in the fingerprint image (2) shown in Figs. 3a and 3b, respectively. It is distinguished by the characteristic point (a) which consists of a hatched circle.

The pseudo feature points (a) represent the feature points (a) of each fingerprint image (2) that do not coincide with each other in the first fingerprint image (2) and the second fingerprint image (2), and the first fingerprint image (2) and two The hatched circles shown in the first fingerprint image 2 are the feature points (a) corresponding to each other, and four are respectively located in the fingerprint image (2), and the image processor 20 is based on each of the four feature points (a). Calculate block 3.

When the block 3 is calculated to include four feature points a corresponding to each other, the image processor 20 generates the first fingerprint image 2 shown in FIG. 3A and the second fingerprint image shown in FIG. 3B. 2) is superimposed as in FIG. 3c to generate and output the superimposed fingerprint image 2a. When the two fingerprint images 2 are superimposed, the overlapping fingerprints as shown in FIG. 3C are shifted by shifting the blocks 3 of the other fingerprint images 2 based on the block 3 located in one fingerprint image 2. Generates an image 2a. Here, the dotted lines in the overlapping fingerprint image 2a shown in FIG. 3C represent portions in which the overlapping fingerprint image 2 shown in FIGS. 3A and 3B are overlapped, respectively.

When the first fingerprint image 2 and the second fingerprint image 2 overlap and the overlapping fingerprint image 2a is generated, the image processor 20 shows the third fingerprint image 2 shown in FIG. 3E in FIG. 3C. The registered fingerprint image 2b shown in FIG. 3F is generated by overlapping the overlapped fingerprint image 2a. In order to generate the registered fingerprint image 2b, the image processor 20 selects the feature points a coincident with each other in the superimposed fingerprint image 2a shown in FIG. 3C and the third fingerprint image 2 shown in FIG. 3E, respectively. By calculating the block 3 in the overlapping fingerprint image (2c) shown in Figure 3c to generate the overlapping fingerprint image (2a) as shown in Figure 3d.

The block 3 of the overlapping fingerprint image 2a shown in FIG. 3D is matched with the block 3 shown in the third fingerprint image 2 shown in FIG. 3E, and inside each block 3 is mutually matched. There are six matching feature points (a). Each of the six feature points (a) has three feature points (a) drawn in black circles, the pseudo feature points (a) shown in FIGS. 3a and 3b, one pseudo feature point (a) drawn in white circles, and FIGS. In FIG. 3B, two feature points a drawn by hatched circles coincide with each other.

When each block 3 including the six feature points a calculated in the superimposed fingerprint image 2a and the third fingerprint image 2 respectively shown in FIGS. 3D and 3E is calculated, the image processor 20 is calculated. Each of the blocks 3 of 3 are overlapped to generate a registered fingerprint image 2b. When the registered fingerprint image 2b is generated by overlapping the overlapping fingerprint image 2a and the third fingerprint image 2, the image processor 20 generates a third fingerprint image based on the block 3 located in the overlapping fingerprint image 2a. The block 3 of (2) is shifted, and each block 3 is matched and then overlapped to generate and output the registered fingerprint image 2b shown in FIG. 3F. Here, a dotted line shown in FIG. 3F represents a state where each fingerprint image 2 is overlapped.

After acquiring the fingerprint to be registered (F: shown in FIG. 1) through this process, another example of overlapping each fingerprint image 2 in the process of generating the registered fingerprint image 2b will be described using the accompanying drawings. The explanation is as follows.

4A to 4D show a process of generating an overlapping fingerprint image 2a, in which a feature point a located in the block 3 of the first fingerprint image 2 shown in FIG. 4A is the second fingerprint image shown in FIG. 4B. The case where the number of feature points a of the block 3 of (2) differs is shown. In this case, the number of different feature points a appears in the region of the same block 3, and the fingerprint F is slightly misaligned when the second fingerprint image 2 is acquired. In this case, as shown in FIG. 4C or 4D, the overlapping fingerprint image 2a is generated by overlapping the block 3 shown in the second fingerprint image 2 as a reference.

Another example of superimposing the fingerprint image 2 is shown in FIGS. 4E-4H. Compared to the first fingerprint image 2 shown in FIG. 4E, the second fingerprint image 2 shown in FIG. 4F shows a left shifted state. In this case, when the fingerprint image 2 is shifted to the left and the fingerprint image 2 is acquired far from the left or the upper side with respect to the reference frame 1, the image processor 20 is the first shown in FIG. 4E. The overlapping fingerprint image 2a as shown in FIGS. 4G and 4H is overlapped by overlapping the block 3 of the fingerprint image 2 shown in FIG. 4F without referring to the block 3 of the first fingerprint image 2. Occurs.

Another example of setting a reference to a new block 3 upon superimposition of the fingerprint image 2 is shown in FIGS. 4I-4K. Fingerprint based on block 3 shown in FIG. 4J when the second fingerprint image 2 shown in FIG. 4J is far from the reference frame 1 compared to the first fingerprint image 2 shown in FIG. 4I. Each of the images 2 is overlaid to generate and output an overlapping fingerprint image 2a as shown in FIG. 4K.

When the overlapping fingerprint image 2a is generated through this process, and the registration fingerprint image 2b is generated by superimposing the third fingerprint image 2 on the generated overlapping fingerprint image 2a, the image processor 20 registers the registered fingerprint image. The registration fingerprint image 2b is stored in the database 40 under the control of the controller 40 (2b).

As described above, when a fingerprint image is registered using a fingerprint recognition device, the fingerprint image is input a predetermined number of times, and the fingerprint images are registered in the database by overlapping each of the input fingerprint images. Registration of the fingerprint image can be easily performed.

As described above, according to the present invention, when a fingerprint image is registered using a fingerprint recognition device, the fingerprint image is input a predetermined number of times, and the fingerprint images are registered in the database by overlapping each of the input fingerprint images. Even if it is input, it provides an effect that the registration operation of the fingerprint image can be easily performed.

Claims (4)

Generating a predetermined number of fingerprint images by inputting a fingerprint to be registered using a fingerprint acquirer, and receiving a predetermined number of fingerprint images generated by the fingerprint acquirer sequentially by an image processor and forming a plurality of fingerprint images on each fingerprint image; In the method for registering a fingerprint image comprising the step of calculating the two feature points, When the feature points of the plurality of fingerprint images are calculated, the image processor checking whether there are feature points that match each other, and calculating a block having a predetermined size to include feature points that match each other; And When a block having the predetermined size is calculated for each of the plurality of fingerprint images, the image processor determines whether a predetermined number of fingerprint images match based on the feature points included in the calculated block. And overlapping the fingerprint images sequentially to generate a registered fingerprint image. The method of claim 1, wherein at least three fingerprint images are required for the predetermined number of fingerprint images in the generating of the predetermined number of fingerprint images. The method of claim 1, wherein the size of the block calculated from each of the predetermined number of fingerprint images in the calculating of the block having the predetermined size is calculated such that at least two feature points corresponding to each other are included in each fingerprint image. A fingerprint image registration method. The method of claim 1, wherein the generating of the fingerprint image to be registered by sequentially overlapping the predetermined number of fingerprint images is performed by overlapping the overlapping fingerprint image by overlapping the first and second fingerprint images based on blocks that match each other. A fingerprint image registration method characterized by generating a registered fingerprint image by overlapping on the basis of blocks that match each other in the overlapped fingerprint image and the third fingerprint image after generation.