CN111626397A - Radio frequency card user identity matching and identifying method based on card veins - Google Patents

Abstract

The invention relates to a radio frequency card user identity matching and identifying method based on card veins, which comprises the following steps of S100: etching a unique card pattern on any surface of the radio frequency card; s200: coating a layer of transparent adhesive tape consisting of photosensitive materials on the surface of the card veins for coating; s300: when the radio frequency card is activated, scanning the card line of the radio frequency card through the optical lens, performing unique matching with the user identity information, and storing the matched data in the central server; s400: when verification and identification are carried out, the card lines of the radio frequency card are scanned through the optical lens for identity verification, and a set of brand-new pairing method of the user identity and the radio frequency card is established in the scheme to replace the traditional electronic signature mode, so that the user information safety is protected, and the use safety factor of the radio frequency card is improved.

Description

Radio frequency card user identity matching and identifying method based on card veins

Technical Field

The invention relates to the field of radio frequency card password protection, in particular to a radio frequency card user identity matching and identifying method based on card lines.

Background

Radio Frequency Identification (RFID) is a wireless communication technology that can identify a specific object and read and write related data by radio signals without establishing mechanical or optical contact between the identification system and the specific object. The radio signal is used to transmit data from the tag attached to the article by means of an electromagnetic field modulated at a radio frequency to automatically identify and track the article. Some tags can obtain energy from the electromagnetic field emitted by the identifier during identification without a battery, and the tags themselves have a power source and can actively emit radio waves (electromagnetic field tuned to radio frequency). The tag contains electronically stored information that can be identified within a few meters. Unlike bar codes, radio frequency tags need not be in the line of sight of the identifier, but can be embedded within the tracked object. Radio frequency identification technology is used in many industries. By attaching the tag to a vehicle in production, the manufacturer can track the progress of the vehicle on the production line. The warehouse may track the location of the drugs. The radio frequency tag can also be attached to livestock and pets, so that the livestock and the pets can be positively identified (positive identification means that a plurality of livestock are prevented from using the same identity). The RFID identification card can allow employees to enter a locked building, and the RFID transponder on the automobile can also be used to collect fees on toll sections and parking lots.

The prior art has the following disadvantages: at present, radio frequency cards are generally not used in a real-name system mode, and by taking common bus cards as examples, the existing bus cards are all used in a mode of no name recording and no loss. Once a user loses the radio frequency card, the radio frequency card cannot be used once the chip is demagnetized, and data is lost, so that property loss of the user is caused.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, provides a radio frequency card user identity matching and identifying method based on card lines, and establishes a set of brand-new user identity and radio frequency card pairing method to replace the traditional electronic signature mode, thereby protecting the user information safety and improving the use safety factor of the radio frequency card.

The purpose of the invention is realized by the following technical scheme:

a radio frequency card user identity matching and identifying method based on card veins comprises the following steps:

s100: etching a unique card pattern on any surface of the radio frequency card;

s200: coating a layer of transparent adhesive tape consisting of photosensitive materials on the surface of the card veins for coating;

s300: when the radio frequency card is activated, scanning the card line of the radio frequency card through the optical lens, performing unique matching with the user identity information, and storing the matched data in the central server;

s400: and during verification and identification, the card pattern of the radio frequency card is scanned through the optical lens to carry out identity verification.

According to the scheme, the card line and the user are used for identity matching, a traditional electronic activation/electronic signature mode is replaced, so that the user information and the card holding information are matched based on the card line, unique identity verification is formed, the identity information verification which is the verification password needs to be removed every time when the radio frequency card is used, and the radio frequency card cannot be used once the verification fails, so that the data and property safety of the user is guaranteed.

Furthermore, the grain groove formed by the card grains is filled with pigment with obvious color difference with the radio frequency card surface, and the card grains can be more obvious by filling with pigment with larger color difference angle, so that the card grains are convenient to identify.

Furthermore, the pigment is made of a fluorescent material or a reflective material, and the lines can be more obviously identified by adopting the fluorescent material or the reflective material.

Further, during the verification and identification, if the verification fails, the radio frequency terminal cannot read the information of the radio frequency card.

Further, the situation of the failed verification includes card-print damage, identity information mismatch or user registration loss.

Furthermore, the card lines are tree lines, and the identification codes are formed by branches and thicknesses of the tree lines.

Furthermore, the blocking lines are composed of transverse lines and longitudinal lines, and the identification codes are composed of the arrangement distribution of the transverse lines and the longitudinal lines and the line width.

Further, the step S300 includes:

s301: inputting user identity information, and matching the identity information with a first secret key;

s302: acquiring a card pattern through an optical lens, and matching the card pattern with a second secret key;

s303: establishing a mapping relation between a first secret key and a second secret key, so that the user identity information is paired with the card line and a unique pairing code is generated;

s304: and activating the radio frequency card chip, and writing the pairing code into the tag chip to finish the identity information binding of the radio frequency card.

Further, the user identity information includes an identification number, a name, a telephone number and fingerprint information.

Further, the step S400 includes:

s401: scanning the radio frequency card through the optical lens to obtain a card line;

s402: the background generates user identity information through the mapping relation between the first secret key and the second secret key;

s403: and matching the identity information by inputting the fingerprint information, wherein if the matching is successful, the identity authentication is passed, and otherwise, the authentication is failed.

The invention has the beneficial effects that: compare with traditional radio frequency card password verification or no authentication, the application method of not remembering a name, this scheme utilization is at the radio frequency card surface etching card line, makes it become authentication's password, applies the inoxidizing coating simultaneously and keeps apart, guarantees the integrality of line, when verifying, only needs carry out fingerprint verification, can accomplish the verification of identity information, if verify that the failure then can't visit the radio frequency card to the security performance of radio frequency card has been guaranteed.

Drawings

FIG. 1 is a flow chart of the present invention.

Detailed Description

The technical solution of the present invention is further described in detail with reference to the following specific examples, but the scope of the present invention is not limited to the following.

As shown in fig. 1, a method for matching and identifying a user identity of a radio frequency card based on a card pattern includes:

s100: etching a unique card pattern on any surface of the radio frequency card;

s200: the transparent adhesive tape made of the photosensitive material is coated on the surfaces of the clamping lines for coating, and the purpose of coating by adopting the transparent adhesive tape is to ensure that the clamping lines are not abraded and keep the clamping lines in a factory shape all the time in the using process.

S300: when the radio frequency card is activated, scanning the card line of the radio frequency card through the optical lens, performing unique matching with the user identity information, and storing the matched data in the central server;

s400: and during verification and identification, the card pattern of the radio frequency card is scanned through the optical lens to carry out identity verification.

On one hand, the card line is etched on the card, the card line is equivalent to a fingerprint of a person, and the card line is used as the identity identification of the card, so that the situation that a card number is needed in a traditional mode is omitted, namely the card number does not exist in the scheme, or the card number is hidden, and the card number can be checked only if a user has the authority, so that the situation that information is applied mechanically is avoided, and the safety performance is improved compared with the prior art.

The step S100 is completed in the radio frequency card production stage, different etching processes can be adopted according to the type of the radio frequency card, in this embodiment, the pattern etching is mainly completed by adopting a chemical agent etching process, and the check and acceptance are performed on the card pattern of each radio frequency card according to the effect of the card pattern in the etching process, so that the card pattern of each radio frequency card is unique and is not repeated. After etching, the grain groove formed by the card grain is filled with pigment which has obvious color difference with the radio frequency card surface, for example, the card surface is blue, the pigment filling can be red and yellow bright color systems, and the pigment is made of fluorescent material or reflective material.

As a preferred embodiment, when the authentication is performed, if the authentication fails, the rf terminal cannot read the information of the rf card, and the case of the failed authentication includes card-line damage, identity information mismatch, or user registration loss.

As a preferred embodiment, the card veins are tree veins, and the branch and the thickness of the tree veins form the identification code. In another preferred embodiment, the snap stripes are composed of transverse stripes and longitudinal stripes, and the identification code is composed of the arrangement distribution of the transverse stripes and the longitudinal stripes and the stripe width.

In other words, the present invention provides a design concept, not limited to the display form of the card pattern, and any pattern that can be used for identity recognition and matching can be introduced into the scheme, for example, a pattern such as a two-dimensional code can also be used.

As a preferred embodiment, step S300 includes:

s301: inputting user identity information, and matching the identity information with a first secret key;

s302: acquiring a card pattern through an optical lens, and matching the card pattern with a second secret key;

s303: establishing a mapping relation between a first secret key and a second secret key, so that the user identity information is paired with the card line and a unique pairing code is generated; the user identity information comprises an identity card number, a name, a telephone number and fingerprint information.

S304: and activating the radio frequency card chip, and writing the pairing code into the tag chip to finish the identity information binding of the radio frequency card.

As a preferred embodiment, step S400 includes:

s401: scanning the radio frequency card through the optical lens to obtain a card line;

s402: the background generates user identity information through the mapping relation between the first secret key and the second secret key;

s403: and matching the identity information by inputting the fingerprint information, wherein if the matching is successful, the identity authentication is passed, and otherwise, the authentication is failed.

The foregoing is illustrative of the preferred embodiments of this invention, and it is to be understood that the invention is not limited to the precise form disclosed herein and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the concept as disclosed herein, either as described above or as apparent to those skilled in the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A radio frequency card user identity matching and identifying method based on card veins is characterized by comprising the following steps:

s100: etching a unique card pattern on any surface of the radio frequency card;

s200: coating a layer of transparent adhesive tape consisting of photosensitive materials on the surface of the card veins for coating;

s300: when the radio frequency card is activated, scanning the card line of the radio frequency card through the optical lens, performing unique matching with the user identity information, and storing the matched data in the central server;

s400: and during verification and identification, the card pattern of the radio frequency card is scanned through the optical lens to carry out identity verification.

2. The method of claim 1, wherein the grooves formed by the card grooves are filled with pigment having a significant color difference from the surface of the radio frequency card.

3. The radio frequency card user identity matching and identification method based on card veins of claim 2, wherein the pigment is made of fluorescent material or reflective material.

4. The radio frequency card user identity matching and identification method based on the card veins of claim 1, wherein during the verification and identification, if the verification is not passed, the radio frequency terminal can not read the information of the radio frequency card.

5. The radio frequency card user identity matching and identification method based on card veins of claim 4, wherein the situation of failed verification includes card veins damage, identity information mismatch or user registration loss.

6. The matching and identification method for the user identity of the radio frequency card based on the card veins as claimed in any one of the claims 1 to 5, wherein the card veins are tree veins, and the identification code is composed of the branch and the thickness of the tree veins.

7. The matching and identification method for the user identity of the radio frequency card based on the card veins as claimed in any one of claims 1 to 5, wherein the card veins are composed of horizontal veins and vertical veins, and the arrangement distribution of the horizontal veins and the vertical veins and the vein width constitute the identification code.

8. The radio frequency card user identity matching and identification method based on card veins of claim 1, wherein the step S300 comprises:

s301: inputting user identity information, and matching the identity information with a first secret key;

s302: acquiring a card pattern through an optical lens, and matching the card pattern with a second secret key;

s303: establishing a mapping relation between a first secret key and a second secret key, so that the user identity information is paired with the card line and a unique pairing code is generated;

s304: and activating the radio frequency card chip, and writing the pairing code into the tag chip to finish the identity information binding of the radio frequency card.

9. The card-fingerprint-based radio frequency card user identity matching and identification method as claimed in claim 8, wherein the user identity information comprises identification number, name, telephone number, fingerprint information.

10. The radio frequency card user identity matching and identification method based on card veins of claim 9, wherein the step S400 comprises:

s401: scanning the radio frequency card through the optical lens to obtain a card line;

s402: the background generates user identity information through the mapping relation between the first secret key and the second secret key;

s403: and matching the identity information by inputting the fingerprint information, wherein if the matching is successful, the identity authentication is passed, and otherwise, the authentication is failed.

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