CN114745091A - Intelligent Ross color block multiple chaotic graph encryption anti-decoding anti-counterfeiting technology - Google Patents

Abstract

The invention discloses an intelligent Ross color block multiple chaotic graph encryption anti-decoding anti-counterfeiting technology, which is an intelligent Ross color block multiple chaotic graph encryption anti-decoding anti-counterfeiting technology, the anti-counterfeiting code of a given pattern is secondarily assigned with given numbers to be mixed and verified based on a database, the given values become a one-dimensional code/two-dimensional code data center module for editing given specific values, the chaotic image encryption technology is utilized to carry out secondary given absolute values on an image data stream, splicing and synthesizing the two-dimensional code and the appointed binary code of the encrypted graph, and then utilizing the image encryption technology of cloud limited numerical value segmentation and secret directional numerical value, the technology uses closed-loop management for anti-counterfeiting data safety, can effectively control different ports of data generation, label antenatal, midnatal and postnatal, and provides a high-reliability safety production control scene for the intelligent anti-counterfeiting label; the technology of the invention has the characteristics of high imitation transfer cost, low deployment cost and the like, and is suitable for products in various industry fields.

Description

Intelligent Ross color block multiple chaotic graph encryption anti-decoding anti-counterfeiting technology

Technical Field

The invention belongs to the field of anti-counterfeiting encryption algorithms, and particularly relates to an intelligent Ross color block multiple chaotic graph encryption anti-decoding anti-counterfeiting technology.

Background

At present, the anti-counterfeiting technologies at home and abroad have a plurality of types, and can be divided into two types in form: content anti-counterfeiting and form anti-counterfeiting. Content anti-counterfeiting means that the product has non-replicability, and the anti-counterfeiting function is generally finished by a special monopoly technology, so that the price is high and the quantity is small. Correspondingly, the anti-counterfeiting carrier is anti-counterfeiting in form, is applied to products or product packages, is more widely applied to daily necessities, and has more practical research value.

Technically, there are several mainstream anti-counterfeiting technologies for form anti-counterfeiting: one is a more traditional material label anti-counterfeiting technology, such as common special ink labels, laser labels and the like; the other type is that two-dimensional codes are used as carriers of anti-counterfeiting technology, and the anti-counterfeiting purpose is achieved by combining intelligent mobile equipment and a background database; the third category is the emerging technology of electronic tags, such as M1 chip tags, RFID chip tags, etc., which are widely used before.

Two-dimensional codes, which are information storage technologies generated instead of bar codes, can rapidly recognize and record high-density data in a limited space. The existing two-dimensional Code technology comprises PDF417, QR Code and the like, the existing scheme usually uses an RSA asymmetric encryption algorithm to encrypt the two-dimensional Code, then generally uses optical scanning of an intelligent mobile terminal to identify, uses an internal software APP of the mobile terminal to provide a decryption algorithm, and obtains a secret key online through a background database. However, the scheme has a natural technical defect, the anti-counterfeiting carrier can be repeatedly produced due to the optical visual requirement of two-dimension code identification, and the mobile terminal device for reading cannot distinguish the anti-counterfeiting carrier, so that the security algorithm of the anti-counterfeiting carrier in an external request encryption mode or the security algorithm of the two-dimension code is not effective, and therefore, the technology is singly adopted as an anti-counterfeiting tracing means to have great potential safety hazard.

From daily use, the characteristic of two-dimensional code is V1-V40, and specific number is 40^10^10000, and human society consumes billions of two-dimensional code every day now, along with scientific progress, the improvement of full-intelligent batch sweep yard technique will lead to the two-dimensional code always to consume the day that finishes, and in case when still having half consumption, the antifalsification label with the two-dimensional code as the carrier will be out of order.

Disclosure of Invention

The invention aims to provide a method for developing a single anti-counterfeiting technology towards integration of multiple anti-counterfeiting technologies from the development and application trends of the anti-counterfeiting technology, the traditional anti-counterfeiting technology is further fused with the information anti-counterfeiting technology, and the information technology, the emerging material technology, the intelligent identification technology, the biological identification technology, the process refinement and the like become active fields of anti-counterfeiting technology innovation. The integration of anti-counterfeiting and internet +, big data enables the anti-counterfeiting technology to be more closely combined with productive services, consumer services and the like, the transition is gradually made from single anti-counterfeiting verification to comprehensive services such as anti-counterfeiting traceability and logistics management, the anti-counterfeiting function is realized, and besides the anti-counterfeiting function, the source, the delivery time, the location, the circulation channel, the terminal consumer and the like of the product can be traced. The technical progress and innovation drive, which will open up the space for the anti-counterfeiting industry development. The future anti-counterfeiting technology development must take the characteristics of convenient and fast identification mode, high imitation transfer cost, low deployment cost and the like as targets.

The technology is an intelligent Ross color block multiple chaos graph encryption anti-decoding anti-counterfeiting technology, which comprises an intelligent Ross anti-counterfeiting code and an intelligent Ross anti-counterfeiting code generation method, a verification method, a generation system, a whole-course data safety production management system and a verification service system, wherein the intelligent Ross anti-counterfeiting code is an ordered encryption graph anti-counterfeiting code formed by multiple encryption of intelligent RGB constant value block digital graphs, the anti-counterfeiting code of a predetermined pattern is secondarily appointed to a predetermined number to be subjected to mixed verification based on a database, the predetermined value becomes a specific one-dimensional code/two-dimensional code data center module for editing and determining, an absolute value is secondarily appointed to an image data stream by using a chaos image encryption technology, the two-dimensional code and the binary code of the encryption graph are spliced and synthesized, and then the image encryption technology of cloud limited value segmentation and secret directional value is used for segmenting the spliced image into a plurality of quadrants, specifying data by appointing at a cloud end, carrying out color limitation on RGB value (0.0.0) -RGB value (255.255.255) intermediate values, specifying a certain system value and associating the certain system value with the appointed color block, giving color to each block by a basic color matching algorithm, and superposing an invisible appointed line encryption technology in a specified area of a label, wherein the multiple encryption technology is integrated to produce an intelligent RGB definite value block digital graph multiple appointed encryption anti-counterfeiting label, and the multiple anti-counterfeiting encryption technologies can be correlated and independently analyzed; the technology uses closed-loop management for anti-counterfeiting data safety, can effectively control different ports of data generation, label antenatal, midnatal and postnatal, and provides a high-reliability safety production control scene for the intelligent anti-counterfeiting label; the technology of the invention has the characteristics of high imitation transfer cost, low deployment cost and the like, and is suitable for products in various industry fields.

In order to achieve the purpose, the invention provides the following technical scheme: the intelligent Ross anti-counterfeiting code is an ordered encrypted graph anti-counterfeiting code formed by multiple encryption of intelligent RGB (Red Green blue) definite value square digital graphs, the anti-counterfeiting code of an appointed pattern is secondarily appointed to appointed digits on the basis of a database, the appointed values become a one-dimensional code/two-dimensional code data center module for editing and appointing, the chaotic image encryption technology is used for secondarily appointing absolute numerical values for an image data stream, the appointed mixed 2-128 system codes of the two-dimensional code and the encrypted graph are spliced and synthesized, then the image encryption technology of cloud limited numerical value segmentation and secret directional numerical value is used for segmenting the spliced image into a plurality of quadrant blocks, the color limitation is carried out on the intermediate numerical values of RGB (0.0.0) -RGB (255.255.255) through the cloud appointed data, the certain numerical value and the appointed color block are specified, the basic color matching algorithm is used for endowing colors for each block, and an invisible agreed-upon line encryption technology can be superposed in the appointed area of the label, the intelligent RGB definite value square digital graph multiple agreed-upon encryption anti-counterfeiting label is produced by integrating the multiple encryption technology, and the multiple anti-counterfeiting encryption technology can be correlated and independently analyzed.

As a preferred implementation, the ordered encrypted graph anti-counterfeiting code one-dimensional code or two-dimensional code formed by multiple encryption of the intelligent RGB fixed value square digital graph is characterized in that: the anti-counterfeiting code is subjected to multiple encryption on an intelligent RGB (Red, Green, blue) definite value square digital graph at the cloud, an intelligent device can be used for sending a data packet at the cloud to perform reverse identification decryption on the anti-counterfeiting code, an appointed transcoding encryption comparison table is arranged for a generation rule of a basic computer color block, CMYK transcoding can be performed according to the comparison table during printing transcoding, the CMYK transcoding is a multi-system encryption pair table and pair table transcoding mode, and the encryption comparison table can perform mixed sequencing multiple encryption according to the date change of the anti-counterfeiting code.

By adopting the scheme, in order to realize a color conversion means of multiple encryption, the difference between cmyk and rgb is explained: 1. the two differ in nature in that RGB is the color displayed by the display and CMYK is the color used for printing. CMYK will change color if previewed with a display. 2. The RGB is mainly the best color presented by the display, and the display has deviation problem when being displayed by CMYK mode; there is also a color shift when printing with RGB. 3. The two are different in meaning, and the RGB mode is a color mode established on the basis of three primary colors of color light. The RGB image uses only three colors, and when unequal amounts of three color lights are superimposed and mixed, various colors in nature are reproduced on a screen. CMYK are 4 printing oil ink colors: cyan, Magenta, Yellow, blacK (the abbreviation uses the last letter K instead of the first B to avoid confusion with Blue). The encoding modes are different, so that the printing is in an RGB mode, but the printing is in a CMYK mode, colors have certain difference, a double decryption rule appears in the decryption mode, corresponding to changed time and dates, the encryption mode takes specific numbers obtained by adding six digits of the dates as corresponding addend positions, the corresponding digits perform position positioning compared with months, the addend of an appointed chart of an appointed number sequence with the dates as the system numbers is presented in a color cheating mode, and a hacker can not crack the anti-counterfeiting code content even if the hacker cracks the color rule and cannot obtain a limited opposite-target chart relationship; the logic of the changes will be explained in the form of a diagram:

RGB to CMYK

R‘＝R/255

G‘＝G/255

B‘＝B/255

K＝1-max(R‘,G‘,B‘)

C＝(1-R‘-K)/(1-K)

M＝(1-G‘-K)/(1-K)

Y＝(1-B‘-K)/(1-K)

CMYK to RGB

R＝255×(1-C)×(1-K)

G＝255×(1-M)×(1-K)

B＝255×(1-Y)×(1-K)

for example, the chart corresponds to a color comparison group of each color, the relationship of the comparison colors can be calculated by using a color computer, the fake molecule without the comparison chart cannot identify the color quadrant of the chart, and the setting rule can be changed according to requirements.

CMYK in-addend, corresponding digit, system number relation and deception number column calculation logic

For example, 21 years, 12 months and 16 days

Corresponding addend 21+12+16 ═ 49

Corresponding digit 12

Corresponding to the carry number 16

Then at 0.0588,0.0275,0.0 (12 th digit true) 000,0.0000 the following data is obtained:

49 (decimal) is 31 (hexadecimal)

0.0588,0.0275,0.31 (12 th bit of a pseudonym) 000,0.0000

An example of the logical relationship between true and false numbers is shown in the following chart:

as a preferred implementation mode, the color change of a single small color block of the anti-counterfeiting code can have 1678 thousands of color changes according to a convention transcoding encryption comparison table, each anti-counterfeiting code has 100 to 10000 small color blocks, and the small color blocks have 1678 thousands of arrangement and combination orders of 10000 powers, namely, the anti-counterfeiting code has a combination mode of 1678^10000^ Infinity at most, the occurrence probability of two same anti-counterfeiting codes is Infinity, the symbol ∞ is Infinity, the Infinity is Infinity ∞ power, and the mathematical formula is abbreviated as ∞ ^.

By adopting the scheme, a color mixing encryption means is realized, each color block is distributed in different shapes, the distribution is taken as the number of counts 1, the color is taken as the number of counts 2, the following color block modes can be obtained, three blocks become an RGB counting mode, and for example, the color block modes are shown in a chart form by using Russian square patterns:

as a preferred embodiment, the hybrid verification of the twice-assigned agreed numbers of the anti-counterfeiting password of the agreed pattern is performed based on the database, and is characterized in that: the mixed verification is a one-dimensional code and two-dimensional code pattern formed by the positioning logic of a specific mixed color block calculated by multiplying the power of an appointed transcoding encryption comparison table.

By adopting the scheme, the generation mode of the two-dimensional code is realized by forming a brand new random square pattern by the colors corresponding to the deception algorithm.

As a preferred embodiment, the two-dimensional code can be formed into a real object after being printed by CMYK, and a coating film of the chaotic encryption anti-counterfeiting technology is covered on the printing paper to form secondary anti-counterfeiting.

By adopting the scheme, in order to realize the purposes, the specific implementation of the intelligent Ross square digital graph multiple encryption anti-counterfeiting technology comprises 5 links: generation method and verification method of intelligent Ross anti-counterfeiting code, intelligent anti-counterfeiting code generation system, whole-course data safety production management system and verification service system

1. The generation of the intelligent Ross anti-counterfeiting code comprises the following steps:

1.1, generating an anti-counterfeiting plain code based on a coding rule of a specified software cloud system, wherein a code generation rule of current specified software is an enterprise code plus code generation batch followed by a random sequence code; the combined encrypted anti-counterfeiting code can be a 13-24 bit system which adopts a DES algorithm to carry out multiple encryption on the anti-counterfeiting plain code;

1.2, generating a QR CODE by using the encrypted two-dimensional CODE, encrypting an image data stream by using a chaotic image encryption technology, splicing and synthesizing the two-dimensional CODE and an encrypted graphic CODE, and dividing the spliced image into a plurality of quadrant blocks, and superposing Ross invisible microgroove encryption technology on the bottom or local area of a label by coloring each block through a basic color matching algorithm;

2. the verification method of the intelligent Ross anti-counterfeiting code comprises the following steps:

2.1, scanning the intelligent Ross anti-counterfeiting code by using terminal scanning equipment;

2.2, reversely analyzing the anti-counterfeiting two-dimensional code data, and simultaneously collecting an intelligent Ross anti-counterfeiting code image;

2.3, verifying and inquiring the two-dimensional code data and the cloud data;

2.4, after the two-dimensional code basic data passes verification, comparing the acquired image with the database image, and confirming that the acquired intelligent Ross anti-counterfeiting code is consistent with the data of the cloud server;

the intelligent Ross anti-counterfeiting code generation system comprises the following contents:

3.1, an anti-counterfeiting code generating module;

3.2, an intelligent Ross anti-counterfeiting code splicing module;

3.3, an invisible microgroove module;

3.4, an intelligent synthesis module;

3.5, a block division module;

3.6, a color-imparting module;

3.7, an anti-counterfeiting code generation module;

4. the intelligent Ross anti-counterfeiting code whole-course data safety production management system comprises the following contents:

4.1, prenatal management and control (ensuring that metadata cannot be revealed);

4.1.1, Socket handshake protocol: based on TCP/IP protocol, the method is used for supporting code downloading of a coding system and a new digital code downloading mode, is convenient for large-data batch downloading, can self-define and simulate TCP handshake information, and ensures that a connecting end comes from a company authorization program;

4.1.2, RSA asymmetric encryption: the company or the user gives a public and private key, the Ross intelligent anti-counterfeiting code in the downloading and transmitting process is effectively encrypted, the original content of the data is difficult to restore under the condition that a second key is not provided for the encrypted data, the data is intercepted in the natural process, the data loss can not be caused, and the condition that the public and private keys are artificially disclosed is eliminated;

4.1.3, generating a terminal industrial personal computer for management: the equipment which manages the code-endowing program and can run needs to be installed and used on the equipment authorized by the system, in order to achieve the purpose, machine code binding is adopted, when the program is started, whether the machine code is the same as the previous authorized data is verified, when the condition of hardware equipment is changed, the program prompts invalid authorization, and at the moment, the terminal needs to submit a re-authorization application to the system;

4.2 management and control in production (effective management and control of safety protection guarantee waste mark in production process)

4.2.1, data statistics: effective data statistics is carried out on each process link in the process of production flow, and the data is accurate to each label;

4.2.2, data recovery: according to data statistics in the circulation process, unified recovery is carried out, and the situations that waste labels are lost and outflow is avoided;

4.2.3, data destruction: after the waste mark data are summarized, according to the requirements of customers, destroying treatment is periodically carried out;

4.3, managing and controlling postpartum (postpartum safety protection is activated and flexibly managed by a brand party according to needs);

4.3.1, bulk activation: the brand side activates anti-counterfeiting data in whole batch according to the anti-counterfeiting code production batch, and all anti-counterfeiting codes can be effectively inquired after being activated;

4.3.2, paragraph activation: the brand side needs to be activated according to the number sections of the whole batch of anti-counterfeiting data, and the un-activated number section needs to be activated and then can be normally used;

4.3.3, single activation: the brand side single code activates the anti-counterfeiting data to be used, and the activation mode can be background activation or automatic activation after warehouse personnel deliver goods;

5. the intelligent Ross anti-counterfeiting code verification service system comprises the following contents:

5.1, an image scanning module;

5.2, a data analysis module;

5.3, an intelligent Ross anti-counterfeiting code verification module;

5.3.1, verifying the intelligent Ross image code;

5.3.2, verifying the intelligent Ross invisible microgroove codes;

5.3.3, verifying the color code of the intelligent Ross block;

5.4, a feedback result verification module;

compared with the prior art, the invention has the beneficial effects that:

the technology is an intelligent Ross color block multiple chaotic graph encryption anti-decoding anti-counterfeiting technology, based on a database, performing mixed verification on the appointed digit of the anti-counterfeiting password of an appointed pattern twice, forming the appointed digit into an editing appointed specific one-dimensional code/two-dimensional code data central module after the appointed value, performing twice appointed absolute numerical value on an image data stream by using a chaotic image encryption technology, splicing and synthesizing the two-dimensional code and the appointed system code of an encrypted graph, then performing color limitation on the intermediate numerical value of RGB value (0.0.0) -RGB value (255.255.255) by using an image encryption technology of cloud limited numerical value segmentation and secret directional numerical value, segmenting the spliced image into a plurality of quadrant blocks, performing color limitation on the intermediate numerical value of RGB value (0.0.0) -RGB value (255.255.255) by appointing data at the cloud, and appointing a certain system numerical value to be associated with the appointed color block, wherein a basic color matching algorithm is used for coloring each block, and an invisible appointed area of a label can be overlaid with an invisible appointed line encryption technology, the method is characterized in that a multiple encryption technology is integrated to produce an intelligent RGB constant value square digital graph multiple agreed type encryption anti-counterfeiting label, and the multiple anti-counterfeiting encryption technologies can be correlated and independently analyzed; the technology uses closed-loop management for anti-counterfeiting data safety, can effectively control different ports of data generation, label antenatal, midnatal and postnatal, and provides a high-reliability safety production control scene for the intelligent anti-counterfeiting label; the technology of the invention has the characteristics of high imitation transfer cost, low deployment cost and the like, and is suitable for products in various industry fields.

Detailed Description

The present invention will be further described with reference to the following examples.

The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention. The conditions in the embodiments can be further adjusted according to specific conditions, and simple modifications of the method of the present invention based on the concept of the present invention are within the scope of the claimed invention.

The invention provides an intelligent Ross color block multiple chaotic graph encryption anti-decoding anti-counterfeiting technology, which comprises an intelligent Ross anti-counterfeiting code and an intelligent Ross anti-counterfeiting code generating method, a verification method, a generating system, a whole-process data safety production management system and a verification service system, wherein the intelligent Ross anti-counterfeiting code is an ordered encrypted graph anti-counterfeiting code formed by multiple encryption of intelligent RGB constant value square digital graphs, the anti-counterfeiting code of a predetermined pattern is secondarily specified to be a predetermined number to be subjected to mixed verification based on a database, the predetermined value becomes an editing predetermined specific one-dimensional code/two-dimensional code data central module, the chaotic image encryption technology is used for secondarily determining absolute numerical values for an image data stream, the two-dimensional code and the predetermined mixed 2-128 system code of the encrypted graph are spliced and synthesized, and then the cloud limit numerical value segmentation and the image encryption technology of secret directional numerical values are used, the spliced image is divided into a plurality of quadrant blocks, designated data are appointed at the cloud, color limitation is carried out on RGB value (0.0.0) -RGB value (255.255.255) intermediate values, a certain system value and a designated color block are specified to be associated, a basic color matching algorithm is used for coloring each block, an invisible appointed line encryption technology can be superposed in a designated area of a label, an intelligent RGB fixed value block digital graph multiple appointed encryption anti-counterfeiting label is produced by the aid of the multiple encryption technology, and the multiple anti-counterfeiting encryption technology can be mutually associated and independently analyzed.

The orderly encrypted graph anti-counterfeiting code one-dimensional code or two-dimensional code formed by multiple encryption of intelligent RGB (red, green and blue) definite value square digital graphs is characterized in that: the anti-counterfeiting code is subjected to multiple encryption on an intelligent RGB (Red, Green, blue) definite value square digital graph at the cloud, an intelligent device can be used for sending a data packet at the cloud to perform reverse identification decryption on the anti-counterfeiting code, an appointed transcoding encryption comparison table is arranged for a generation rule of a basic computer color block, CMYK transcoding can be performed according to the comparison table during printing transcoding, the CMYK transcoding is a multi-system encryption pair table and pair table transcoding mode, and the encryption comparison table can perform mixed sequencing multiple encryption according to the date change of the anti-counterfeiting code.

The color change of a single small color block of the anti-counterfeiting code can have 1678 thousands of color changes according to a convention transcoding encryption comparison table, each anti-counterfeiting code has 100 to 10000 small color blocks, and the small color blocks have 1678 thousands of arrangement and combination sequences of 10000 powers, namely the anti-counterfeiting code has a combination mode of 1678^10000^ Infinity at most, the appearance probability of two same anti-counterfeiting codes is Infinity, the symbol ∞ is Infinity, the Infinity is ∞ power, and the mathematical formula is ∞.

The method is characterized in that the method carries out mixed verification on the appointed digit of the anti-counterfeiting password of the appointed pattern by two times based on a database, and is characterized in that: the mixed verification is a one-dimensional code and two-dimensional code pattern formed by the positioning logic of a specific mixed color block calculated by multiplying the power of an appointed transcoding encryption comparison table.

The two-dimensional code can form a real object after being printed by CMYK, and a layer of coating film of chaotic encryption anti-counterfeiting technology is covered on printing paper to form secondary anti-counterfeiting.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. An intelligent Ross color block multiple chaos graph encryption anti-decoding anti-counterfeiting technology comprises an intelligent Ross anti-counterfeiting code and an intelligent Ross anti-counterfeiting code generation method, a verification method, a generation system, a whole-course data safety production management system and a verification service system, and is characterized in that: the intelligent Ross anti-counterfeiting code is an ordered anti-counterfeiting code of an encrypted graph formed by multiple encryption of intelligent RGB (red, green and blue) definite value square digital graphs, the anti-counterfeiting code of an agreed pattern is subjected to mixed verification by secondarily designating agreed numbers based on a database, the agreed values become a specific one-dimensional code/two-dimensional code data center module for editing and agreement, a chaotic image encryption technology is used for secondarily agreeing absolute values on an image data stream, the agreed mixed 2-128 system codes of the two-dimensional code and the encrypted graph are spliced and synthesized, then an image encryption technology of cloud definite value segmentation and secret directional values is used for segmenting a spliced image into a plurality of quadrant blocks, the intermediate values of RGB (0.0.0) -RGB (255.255.255) are subjected to color limitation by valuing the appointed data at the cloud, a certain system value and an appointed color block are specified to be associated, and a basic color matching algorithm is used for coloring each block, and an invisible agreed-upon line encryption technology can be superposed in the appointed area of the label, the intelligent RGB definite value square digital graph multiple agreed-upon encryption anti-counterfeiting label is produced by integrating the multiple encryption technology, and the multiple anti-counterfeiting encryption technology can be correlated and independently analyzed.

2. The intelligent Ross color block multiple chaotic graph encryption anti-decoding anti-counterfeiting technology according to claim 1, characterized in that: the intelligent Ross anti-counterfeiting code conducts multiple encryption on the anti-counterfeiting code through an intelligent RGB constant value square digital graph at the cloud end, reverse identification decryption can be conducted on the anti-counterfeiting code through an intelligent device sending a data packet at the cloud end, an appointed transcoding encryption comparison table is arranged on the RGB constant value square as a generation rule of a basic computer color block, CMYK transcoding can be conducted according to the comparison table during printing transcoding, the CMYK transcoding is a multi-system encryption type counter-calibration transcoding mode, and the encryption comparison table can conduct mixed sorting multiple encryption according to date changes of the anti-counterfeiting code.

3. The intelligent Ross color block multiple chaotic graph encryption anti-decoding anti-counterfeiting technology according to claim 1, characterized in that: the color change of a single small color block of the intelligent Ross anti-counterfeiting code can have 1678 thousands of color changes according to an agreed transcoding encryption comparison table, each anti-counterfeiting code has 100 to 10000 small color blocks, and the small color blocks have 1678 thousands of permutation and combination sequences of 10000 powers, namely the anti-counterfeiting code has a combination mode of 1678^10000^ Infinity at most, the occurrence probability of two same anti-counterfeiting codes is Infinity, the symbol ∞ is Infinity, the Infinity is Infinity ∞ Infinity power, and the mathematical formula is Infinity.

4. The intelligent Ross color block multiple chaotic graph encryption anti-decoding anti-counterfeiting technology according to claim 1, characterized in that: the mixed verification is a one-dimensional code and two-dimensional code pattern formed by the positioning logic of a specific mixed color block calculated by multiplying the power of an appointed transcoding encryption comparison table.

5. The intelligent Ross color block multiple chaotic graph encryption anti-decoding anti-counterfeiting technology according to claim 1, characterized in that: the two-dimensional code can form a real object after being printed by CMYK, and a layer of coating film of chaotic encryption anti-counterfeiting technology is covered on printing paper to form secondary anti-counterfeiting.

6. The intelligent Ross color block multiple chaotic graph encryption anti-decoding anti-counterfeiting technology according to claim 1, characterized in that: the intelligent Ross anti-counterfeiting code generation method comprises the following steps:

1.1, generating an anti-counterfeiting plain code based on a coding rule of a specified software cloud system, wherein a code generation rule of current specified software is an enterprise code plus code generation batch followed by a random sequence code; the combined encrypted anti-counterfeiting code can be a 13-24 bit system which adopts a DES algorithm to carry out multiple encryption on the anti-counterfeiting plain code;

and 1.2, generating a QR CODE by using the encrypted two-dimensional CODE, encrypting an image data stream by using a chaotic image encryption technology, splicing the two-dimensional CODE and the encrypted graphic CODE to be combined, and segmenting the spliced image into a plurality of quadrant blocks by using a secret segmentation and secret sharing image encryption technology, and coloring each block at the bottom of the label or overlapping a local area through a basic color matching algorithm.

7. The intelligent Ross color block multiple chaotic graph encryption anti-decoding anti-counterfeiting technology according to claim 1, characterized in that: the verification method of the intelligent Ross anti-counterfeiting code comprises the following steps:

2.1, scanning the intelligent Ross anti-counterfeiting code by using terminal scanning equipment;

2.2, reversely analyzing the anti-counterfeiting two-dimensional code data, and simultaneously collecting an intelligent Ross anti-counterfeiting code image;

2.3, verifying and inquiring the two-dimensional code data and the cloud data;

and 2.4, after the verification of the two-dimensional code basic data is passed, comparing the acquired image with the database image, and confirming that the acquired intelligent Ross anti-counterfeiting code is consistent with the data of the cloud server.

8. The intelligent Ross color block multiple chaotic graph encryption anti-decoding anti-counterfeiting technology according to claim 1, characterized in that: the intelligent Ross anti-counterfeiting code generation system comprises the following contents:

3.1, an anti-counterfeiting code generating module;

3.2, an intelligent Ross anti-counterfeiting code splicing module;

3.3, an invisible microgroove module;

3.4, an intelligent synthesis module;

3.5, a block division module;

3.6, a color-imparting module;

3.7, an anti-counterfeiting code generation module.

9. The intelligent Ross color block multiple chaotic graph encryption anti-decoding anti-counterfeiting technology according to claim 1, characterized in that: the intelligent Ross anti-counterfeiting code whole-course data safety production management system comprises the following contents:

4.1, prenatal management and control (ensuring that metadata cannot be revealed);

4.1.1, Socket handshake protocol: based on TCP/IP protocol, the method is used for supporting code downloading of a coding system and a new digital code downloading mode, is convenient for large-data batch downloading, can self-define and simulate TCP handshake information, and ensures that a connecting end comes from a company authorization program;

4.1.2, RSA asymmetric encryption: the company or the user gives a public and private key, the Ross intelligent anti-counterfeiting code in the downloading and transmitting process is effectively encrypted, the original content of the data is difficult to restore under the condition that a second key is not available after the data is encrypted, the data is intercepted in the natural process, the data loss can not be caused, and the condition that the public and private keys are disclosed artificially is removed;

4.1.3, generating a terminal industrial personal computer for management: the equipment which manages the code-endowing program and can run needs to be installed and used on the equipment authorized by the system, in order to achieve the purpose, machine code binding is adopted, when the program is started, whether the machine code is the same as the previous authorized data is verified, when the condition of hardware equipment is changed, the program prompts invalid authorization, and at the moment, the terminal needs to submit a re-authorization application to the system;

4.2 management and control in production (effective management and control of safety protection guarantee waste mark in production process)

4.2.1, data statistics: effective data statistics is carried out on each process link in the process of production flow, and the data is accurate to each label;

4.2.2, data recovery: according to data statistics in the circulation process, unified recovery is carried out, and the situations that waste labels are lost and outflow is avoided;

4.2.3, data destruction: after the waste mark data are summarized, according to the requirements of customers, destroying treatment is periodically carried out;

4.3, managing and controlling postpartum (postpartum safety protection is activated and flexibly managed by a brand party according to needs);

4.3.1, bulk activation: the brand side activates anti-counterfeiting data according to the anti-counterfeiting code production batch in a whole batch, and all anti-counterfeiting codes can be effectively inquired after being activated;

4.3.2, paragraph activation: the brand side needs to be activated according to the number sections of the whole batch of anti-counterfeiting data, and the un-activated number section needs to be activated and then can be normally used;

4.3.3, single activation: the anti-counterfeiting data required to be used is activated by the brand side single code, and the activation mode can be background activation or automatic activation after warehouse personnel deliver goods.

10. The intelligent Ross color block multiple chaotic graph encryption anti-decoding anti-counterfeiting technology according to claim 1, characterized in that: the intelligent Ross anti-counterfeiting code verification service system comprises the following contents:

5.1, an image scanning module;

5.2, a data analysis module;

5.3, an intelligent Ross anti-counterfeiting code verification module;

5.3.1, verifying the intelligent Ross image code;

5.3.2, verifying the intelligent Ross invisible microgroove code;

5.3.3, verifying the color code of the intelligent Ross block;

and 5.4, a feedback result verification module.