JP2000309154A - Identification card - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an identification card such as a credit card, a passport or a licensing certificate which is capable of prevented forgery due to tempering, alternation or the like from being committed and enables a bearer to establish his identity without the necessity to a structure identification means such as a network or a database. SOLUTION: Information specifying an identify is coded as information specifying a bearer using a visible ink 12 on a base material 20 and this coded information is printed in an infrared absorbing ink 13 which does not absorb infrared rays in a visible light wavelength region but absorbs the rays only in an infrared light wavelength region. A face photograph image 14 is used as information specifying the bearer and a two-dimensional code is used as the coded information.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a credit card, a passport, a license, etc., which can be used as an identification card. More specifically, it is designed to prevent counterfeiting of these items that can be used as identification cards, and to conform to a system that can easily confirm whether or not the owner and user of this item are the person himself / herself with a terminal. is there.

[0002]

2. Description of the Related Art For example, in a credit card, a personal identification number registered in advance by a person himself / herself is inputted for confirmation of an owner, and in addition to whether or not the personal identification numbers match, visual confirmation is performed by a confirmer. . For example, a face photograph image printed on a card or a signature signed by the person is collated to confirm whether or not the person is the person. However, it is known that there is a risk of falsification due to falsification or falsification, or improper use by impersonating the person, and security cannot always be sufficiently guaranteed.

For this purpose, a hologram is attached to a card, a printing technique such as a fluorescent ink or a micropattern, or a countermeasure to prevent forgery by copying is performed by putting a watermark or metallic luster on a base material. Further, at the time of verification, as shown in FIG. 6, a face photograph image and a code corresponding to the face photograph image on a one-to-one basis are read by a terminal, and face photograph image data is stored in a database. Send to the center computer. The center computer detects the face photograph image data corresponding to the code and sends it back to the terminal. On the terminal side, the face photograph image data sent from the center computer is displayed on the display, and the person confirming and confirming the face photograph image provided on the card, the face photograph image displayed on the display, It is also performed to compare the face with the person who possesses or intends to use, and determine whether or not the user is a valid card holder or user. However, this collation confirmation system requires an online network that connects the center computer and each terminal via a line, and a database of facial photographs, which requires a large scale construction of the system itself, resulting in enormous equipment and operation costs. Is a problem.

[0004]

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and aims to prevent forgery due to falsification, falsification, etc. It is an object of the present invention to provide an identification card such as a credit card, a passport, a driver's license and the like that can be identified as a person without building a database.

[0005]

According to a first aspect of the present invention, there is provided an image processing apparatus, comprising the steps of: encoding information for identifying a person on a base material with visible ink; The identification card is characterized in that the encoded information is printed with an infrared absorbing ink that does not absorb in the visible light wavelength region and absorbs only in the infrared light wavelength region.

As the personal identification information, as shown in FIG.
A method in which the date of birth, address, permanent address, telephone number, and the like, which are the attribute information (12) of the principal, are bar-coded, two-dimensional code, and other keys that are previously decrypted at the terminal as personal identification information. Performs encryption (encoding). This encoded information is printed on any part of the base material with an infrared-absorbing ink that does not absorb in the visible light wavelength region and absorbs only in the infrared light wavelength region, thereby creating an identification card. When the personal identification information amount is set to be small, a one-dimensional code such as a bar code may be used, but when the personal information is set to be large, a two-dimensional code is adopted.

The identification card is read by a reader having an infrared reading sensor to read and decode the code, and the original attribute information of the person is displayed on the display of the terminal, such as date of birth, address, permanent address, and telephone. Display the number etc. If this display is different from the one described in the certificate, it is determined that it is forged.

[0008] Since the encoded information is printed with a transparent ink that cannot be read, it is not easy to determine where the code is printed by what encryption method. Therefore, printing and pasting the visible information printed on the base material, even a sophisticated counterfeit that is indistinguishable on the surface, when read by a reader,
Since there is no encoded information, nothing is restored and nothing is displayed on the display, so that it can be determined that the information is forged.

Further, according to a second aspect of the present invention, after a face photograph image (14) is used as personal identification information and encoded, the encoded information is not absorbed in the visible light wavelength region and is not absorbed by infrared light. This is an identification card characterized by being printed with an infrared absorbing ink that absorbs only in the wavelength region.

Further, the present invention according to claim 3 is the identification card according to claim 1 or 2, wherein the encoded information is a two-dimensional code.

[0011] Although it is possible to confirm at least whether or not forgery is prevented by the above specific information including only character information, it is not possible to accurately determine whether or not the user is a legitimate holder or user without combining other information. Absent. For this reason, credit cards involving money, passports whose identity must be strictly checked, various licenses, etc., should be used to ensure that the owner and user are who they say they are. 2, a face photograph image as shown in FIG. 2 is provided to prevent unauthorized use by anyone other than the person. Therefore, after the face photograph image is encoded by the encoding means having encryption software, the encoded information is printed with infrared absorbing ink which does not absorb in the visible light wavelength region and absorbs only in the infrared light wavelength region. create. By reading and decoding this with a reader, the decoded face photograph image is displayed on the display, the face photograph image provided on the base material and the face photograph image displayed on the display, and By comparing the face of the person who owns or the face of the person who owns it, the person can be definitely identified. Also, it can be confirmed that forgery has not been performed.

The size of a face photo image provided on a credit card, passport, or license is not so large and is generally about 4 × 5 cm. The original data of this face photo image is about 250 KB, and the red It can be recorded in a two-dimensional code by a known orthogonal transform coding method, Markov coding method, differential block coding method, or the like according to the size of the area to be printed with the external absorbing ink (hereinafter, referred to as an invisible area (13b)). Perform compression on data volume. By using a two-dimensional code, a face photograph image can be encoded and recorded.

Further, according to the present invention, the visible ink in a portion overlapping with the infrared absorbing ink is composed of a pigment containing no carbon, such as yellow (Y), magenta (M), and cyan (C). The identification card according to claim 1, wherein the identification card is a process ink.

The commonly used process inks of Y, M and C colors use a pigment which does not absorb infrared rays.
The K (black) process ink uses a carbon pigment that absorbs infrared light. For this reason, if the printing is performed with the BK process ink containing carbon in the invisible area where the printing is performed with the infrared absorbing ink, the printing of the encoded information or the visible information This makes it impossible to separately recognize whether the print is a print, and as a result, an erroneous determination is made. Therefore, when printing in the invisible area (13b) with the BK color, if the Y, M, and C colors are mixed and printed with the BK color ink, the encoded print information and the visible print information are separated. Can be recognized.

[0015]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows an example of an identification card (card type) according to the present invention. FIG. 1 (A) is a plan view and FIG. 1 (B) is a sectional view.

Attribute information (1) for the person's name (11)
2) is converted into a code of a two-dimensional code, and the code pattern (13a) is printed on the base material (20) with an infrared absorbing ink that has no absorption in the visible light wavelength region and absorbs only in the infrared light wavelength region. On top of this, visible information such as name, date of birth, address,
A telephone number or the like is printed as visible information with BK ink mixed with Y, M, and C inks. If necessary, a protective layer (30) may be further provided. When a film on which a transparent hologram is formed as a protective layer is attached, a forgery prevention effect due to the hologram is added, and it becomes more difficult to prevent forgery.

The verification is performed according to the procedure shown in the flowchart of FIG. The identification information created by the above configuration is read by an infrared code reader with code information printed with infrared ink. (S1) The read code is
The original image data is restored by decryption software that restores the information corresponding to the information encrypted in the creation stage. (S2) Display the restored image data on the display. (S3)
The image displayed on the display and the image described on the certificate are compared to determine whether or not they match.
(S4)

As the substrate (20), paper, synthetic paper, plastic sheet or the like is used. Further, as an infrared absorbing material that does not absorb in the visible light wavelength region and absorbs only in the infrared light wavelength region used in the present invention, phosphoric acid crystal powder containing phosphorus pentoxide as a main component and iron oxide or copper oxide or both, Glass-based powder containing phosphorus pentoxide as a main component and containing Fe ²⁺ or Cu ²⁺ ions, infrared absorbing material of metal complex, cyanine-based, phthalocyanine-based, naphthalocyanine-based, anthraquinone-based, coronic methine-based, azleonium-based, pyrylium And other infrared-absorbing dyes.

These infrared absorbing materials are made of polyvinyl chloride, vinyl acetate-vinyl chloride copolymer, polyacryl,
Linseed oil, drill oil, toluene, acetone, alcohol, using resins such as polystyrene and polyamide as binders
It is dissolved and dispersed in an appropriate solvent such as methyl ethyl ketone or ethylene glycol to form an ink in consideration of the viscosity, transferability, drying property, etc., which match the printing method.

FIG. 2 shows an example of an identification card provided with a face photograph image. FIG. 2 (A) is a plan view and FIG. 2 (B).
Is a sectional view. Except that a face photograph image is used for the personal identification information, it is basically the same as that described in FIG. That is, after compressing an image including at least a face photograph image as the personal identification information to a data amount that can be recorded by a two-dimensional code by an orthogonal transform coding method, a Markov coding method, a differential block coding method, or the like, Print with outside absorbing ink.

After printing the infrared absorbing ink, a color face photograph image and the date of birth, address, etc., which are the attribute information of the person, are printed with BK color ink in which Y, M, and C colors are mixed with process ink. . If necessary, a protective layer (30) may be further provided. When a film on which a transparent hologram is formed as a protective layer is attached, it becomes more difficult to prevent forgery.

Using the infrared code reader, the code information of the face photograph image printed with the infrared ink is read from the identification card created by the above configuration. (S1) The read face photograph code information is restored to the original face photograph image data by decryption software corresponding to the encryption software used in the creation stage. (S2) The restored face photograph image data is displayed on the display. (S3) Compared with the face photograph image displayed on the display, the face photograph image described on the certificate, and the face of the holder and the user, whether the person has been forged or is a legitimate holder or user. Check the collation. (S4)

In the above description, the face photograph image is used as the personal identification information. However, if the verification device can analyze fingerprints, voiceprints, and the like, personal identification information such as fingerprints, voiceprints, and the like are encoded. Is also good. However, from a practical point of view, a face photograph image is most suitable. Also, after printing the infrared absorbing ink, personal identification information was printed with visible ink,
This printing order may be changed. That is, the infrared absorbing ink is transparent because it does not absorb in the visible light wavelength region,
After printing the personal identification information with the visible ink and printing the encoded information with the infrared absorbing ink, there is no inconvenience.

A face photograph image and an apparatus for encoding the face photograph image as personal identification information and providing the same on an identification card can be realized by a known technique as shown in the block diagram of FIG. That is, a person is photographed by a CCD camera, and the photographed digital data is subjected to data compression using an orthogonal coding method, a Markov coding method, a differential block coding method, or the like, and then converted into a two-dimensional code. For photographic images, the digital information obtained by shooting is not processed at all, and the encoded information is 2
By printing in a transfer ribbon system using a dimensional code from an image processing computer incorporating an encoding means, an identification card can be created in which a face photograph image and encoded information are surely associated one-to-one.

[0025]

According to the present invention, after the personal identification information is encoded, the encoded information is printed with an infrared absorbing ink which does not absorb in the visible light wavelength region and absorbs only in the infrared light wavelength region. Since it is invisible to the human eye, it is not possible to know what code is printed on which location and it is impossible to forge without decoding the encoding method, which is effective in preventing forgery.

By encoding as personal identification information described on the identification card and printing it as encoded information,
The code information of this identification card can be read, decoded, and verified by a stand-alone type verifier that can be displayed on a display, so that the center computer and the terminal that record the specific information as a database There is no need to network. Therefore, the construction cost and operation cost of the verification system can be reduced as compared with the network system.

[Brief description of the drawings]

1A and 1B show an example of an identification card (card type) according to the present invention, wherein FIG. 1A is a plan view and FIG.

FIG. 2 shows an example of an identification card (card type) provided with a face photograph image according to the present invention, wherein (A) is a plan view,
(B) is a configuration sectional view.

FIG. 3 is a schematic block diagram illustrating verification verification of an identification card.

Fig. 4 Identification card (card type) provided with face photograph 2
FIG. 3 is a schematic block diagram illustrating the creation of a.

FIG. 5 is a flowchart at the time of collation confirmation.

FIG. 6 is a schematic block diagram when a conventional identification card is collated and confirmed.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 11 ... Name of person 12 ... Attribute information 13 ... Infrared absorption ink 13a ... Code pattern 13b ... Invisible area 14 ... Face photograph image 20 ... Base material 30 ... Protective layer

Claims (4)

[Claims] Claims: 1. Information identifying a person on a base material using visible ink,
An identification card, characterized in that after the personal identification information is encoded, the encoded information is printed with an infrared-absorbing ink that has no absorption in the visible light wavelength region and has absorption only in the infrared light wavelength region. 2. A method using a face photograph image as personal identification information,
After identification, said identification information is printed with an infrared absorbing ink which has no absorption in the visible light wavelength region and has absorption only in the infrared light wavelength region. 3. The identification card according to claim 1, wherein said encoded information is a two-dimensional code. 4. The visible ink overlapping with the infrared absorbing ink is a yellow (Y), magenta (M), or cyan (C) process ink made of a pigment containing no carbon. The identification card according to any one of Items 1, 2, and 3.