CN114745091A - An intelligent Ross color block multiple chaotic graphics encryption anti-deciphering and anti-counterfeiting technology - Google Patents

Abstract

The invention discloses an intelligent Ross color block multiple chaotic figure encryption anti-deciphering and anti-counterfeiting technology. The technology is an intelligent Ross color block multiple chaotic figure encryption, anti-deciphering and anti-counterfeiting technology. Based on a database, the anti-counterfeiting password of the agreed pattern is designated twice. The numbers are mixed and verified, and the agreed value becomes a specific one-dimensional code/two-dimensional code data center module for editing and contracting. The chaotic image encryption technology is used to make a second agreement on the absolute value of the image data stream, and the two-dimensional code and encrypted graphics The conventional hexadecimal code is spliced and synthesized, and then the image encryption technology of cloud-defined value segmentation and secret directional value is used. This technology uses closed-loop management for the security of anti-counterfeiting data, and can perform data generation, label pre-production, production, and post-production for different ports. Effective management and control provides high-reliability and safe production management and control scenarios for intelligent anti-counterfeiting labels; the technology of the invention has the characteristics of high imitation transfer cost and low deployment cost, and can be applied to products in various industries.

Description

An intelligent Ross color block multiple chaotic graphics encryption anti-deciphering and anti-counterfeiting technology

technical field

The invention belongs to the field of anti-counterfeiting encryption algorithms, in particular to an intelligent Ross color block multiple chaotic figure encryption anti-deciphering anti-counterfeiting technology.

Background technique

At present, there are many types of anti-counterfeiting technologies at home and abroad, which can be divided into two categories in terms of form: content anti-counterfeiting and formal anti-counterfeiting. Content anti-counterfeiting refers to the fact that the product itself is not replicable, and generally relies on special monopoly technology to complete the anti-counterfeiting function, which is expensive and rare. Corresponding to it is the form of anti-counterfeiting. The anti-counterfeiting carrier appears on the product or product packaging, which is more widely used in daily necessities and has more practical research value.

From the technical classification, there are several mainstream anti-counterfeiting technologies in the form of anti-counterfeiting: one is the more traditional anti-counterfeiting technology for material labels, such as common special ink labels, laser labels, etc.; the other is the use of two-dimensional code as anti-counterfeiting technology The carrier of technology, combined with intelligent mobile devices and background database to achieve the purpose of anti-counterfeiting; the third category is relatively new electronic label technology, such as M1 chip tags and RFID chip tags that were widely used before.

As an information storage technology that replaces barcodes, two-dimensional codes can quickly identify and record high-density data in a limited space. Existing two-dimensional code technologies include PDF417, QR Code, etc. The existing solutions usually use the RSA asymmetric encryption algorithm to encrypt the two-dimensional code, and then generally use the optical scanning of the intelligent mobile terminal for identification. The software APP provides the decryption algorithm and obtains the key online through the background database. However, there are natural technical defects in this solution. The optical visual requirement of QR code recognition makes the anti-counterfeiting carrier itself provide the possibility of being reproducible, but the mobile terminal equipment used for reading cannot distinguish it, so that no matter Whether it is the encryption method of the external request or the internal security algorithm of the QR code is ineffective, the single use of this technology as a means of anti-counterfeiting traceability has great security risks.

In terms of daily use, the characteristics of two-dimensional codes are V1-V40, and the specific number is 40^10^10,000. Now human society consumes tens of billions of two-dimensional codes every day. With the progress of science, the fully intelligent batch scanning technology The perfection of the QR code will lead to a day when the QR code will be consumed. Once the consumption reaches half, the anti-counterfeiting label based on the QR code will fail.

SUMMARY OF THE INVENTION

The purpose of the present invention is to provide an anti-counterfeiting technology that integrates multiple anti-counterfeiting technologies from a single anti-counterfeiting technology, and further integrates traditional anti-counterfeiting technology and information anti-counterfeiting technology. Information technology, emerging material technology, intelligent identification Technology, biometric technology, process refinement, etc., have become active areas of anti-counterfeiting technology innovation. The integration of anti-counterfeiting, Internet+ and big data will make the anti-counterfeiting technology more closely integrated with productive services and consumer services, and gradually transition from a single anti-counterfeiting verification to comprehensive services such as anti-counterfeiting traceability and logistics management. It can trace the source of raw materials, time of manufacture, location, distribution channels, end consumers, etc. of products. Technological progress and innovation drive will open up space for the development of the anti-counterfeiting industry. In the future, the development of anti-counterfeiting technology will definitely aim at the characteristics of convenient identification, high imitation transfer cost, and low deployment cost.

This technology is an intelligent Ross color block multiple chaotic graphics encryption anti-deciphering and anti-counterfeiting technology, including intelligent Ross anti-counterfeiting code and intelligent Ross anti-counterfeiting code generation method, verification method, generation system, whole process data security production management system and verification service system. The intelligent Ross anti-counterfeiting code is an orderly encrypted graphic anti-counterfeiting code formed by multiple encryption of intelligent RGB fixed-value square digital graphics. Based on the database, the anti-counterfeiting password of the agreed pattern is double-specified with the agreed number for mixed verification, and the agreed value becomes the editing agreement-specific code. The one-dimensional code/two-dimensional code data center module uses the chaotic image encryption technology to make a second agreement on the absolute value of the image data stream, splicing and synthesizing the agreed base code of the two-dimensional code and encrypted graphics, and then uses the cloud to limit the value The image encryption technology of segmentation and secret orientation value divides the spliced image into multiple quadrant blocks. By specifying data in the cloud, the intermediate value of RGB value (0.0.0) - RGB value (255.255.255) Carry out color limitation and specify that a certain binary value is related to the agreed color block. The basic color matching algorithm is to assign color to each block, and the invisible agreed pattern encryption technology can be superimposed on the designated area of the label, and the multi-encryption technology can be used to produce intelligent RGB color matching. Value square digital graphics multi-convention encryption anti-counterfeiting labels, multiple anti-counterfeiting encryption technologies can be correlated with each other and independently analyzed; this technology uses closed-loop management for anti-counterfeiting data security, and can effectively perform data generation, label pre-production, production and post-production for different ports Management and control provide high-reliability and safe production management and control scenarios for intelligent anti-counterfeiting labels; the technology of the invention has the characteristics of high imitation transfer cost and low deployment cost, and can be applied to products in various industries.

In order to achieve the above object, the present invention provides the following technical solutions: the intelligent Ross anti-counterfeiting code is an orderly encrypted graphic anti-counterfeiting code formed by multiple encryption of intelligent RGB fixed-value square digital graphics, and the anti-counterfeiting password of the agreed pattern is designated twice based on the database. The numbers are mixed and verified, and the agreed value becomes a specific one-dimensional code/two-dimensional code data center module for editing and contracting. The chaotic image encryption technology is used to make a second agreement on the absolute value of the image data stream, and the two-dimensional code and encrypted graphics The agreed mixed 2 to 128 hexadecimal codes are spliced and synthesized, and then the spliced image is divided into multiple quadrant blocks by using the image encryption technology of cloud-limited numerical segmentation and secret directional numerical value. Value (0.0.0) - RGB value (255.255.255) The intermediate value is used to limit the color and specify that a certain binary value is associated with the agreed color block. The basic color matching algorithm assigns color to each block, and can be used in the label. The designated area is superimposed with invisible conventional pattern encryption technology, and multiple encryption technologies are integrated to produce intelligent RGB fixed value square digital graphics multi-agreement encryption anti-counterfeiting labels. Multiple anti-counterfeiting encryption technologies can be correlated and independently analyzed.

As a preferred embodiment, the orderly encrypted graphic anti-counterfeiting code one-dimensional code or two-dimensional code formed by multiple encryption of the intelligent RGB fixed value square digital graphics The anti-counterfeiting code is encrypted in multiple ways. You can use the smart device to send data packets in the cloud to reverse the identification and decryption of the anti-counterfeiting code. The RGB fixed value square is the basic computer color block generation rule. When CMYK transcoding can be performed according to the comparison table, the CMYK transcoding is a multi-binary encryption type table-to-mark transcoding mode, and the encryption comparison table can be mixed and sorted according to the date change of the anti-counterfeiting code. Multiple encryption .

Using the above scheme, in order to realize the color conversion method of multiple encryption, the difference between cmyk and rgb is explained: 1. The two are different in nature: RGB is the color displayed by the monitor, and CMYK is the color used for printing. If you use a monitor to preview CMYK, it will change color. 2. The two are different in the medium they are aimed at: RGB is mainly the best color displayed by the monitor. There will be a deviation problem when the monitor is displayed in CMYK mode; if it is printed in RGB, there will also be a deviation in the color. 3. The two are different in meaning: the RGB mode is a color mode based on the three primary colors of color and light. RGB images only use three colors, and when unequal amounts of the three colors are superimposed and mixed, a variety of colors in nature will be reproduced on the screen. CMYK is 4 printing ink colors: Cyan Cyan, Magenta Magenta, Yellow Yellow, Black blacK (here the abbreviation uses the last letter K instead of the B at the beginning, to avoid confusion with Blue). The encoding method is different, resulting in RGB mode when printing, but CMYK mode when printing, there is a certain difference between colors, and there is a double decryption rule in the decryption mode. Corresponding to the time and date of the change, the encryption mode is based on The specific number obtained by adding the six digits of the date is used as the corresponding addend position, and the corresponding number of digits is used for position positioning against the month. The date is used as a hexadecimal number. The hexadecimal cyclic sequence of deceiving digits means that even if the hacker deciphers the color rules, the content of the anti-counterfeiting code cannot be deciphered without the limited target chart relationship; the change logic will be explained in the form of a chart:

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 the color control group of each color. It should be that the relationship between the control colors can be calculated using a color computer. Forgers who do not have a control chart cannot identify the color quadrant of the chart, and the setting rules can be changed according to needs.

CMYK in the addend, the corresponding number of digits, the relationship between the base number and the calculation logic of the deception sequence

e.g. 12/16/21

Corresponding addend 21+12+16=49

Corresponds to 12 digits

Corresponding base number 16

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

49 (decimal) = 31 (hexadecimal)

0.0588, 0.0275, 0.31 (12th false number) 000, 0.0000

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

As a preferred embodiment, the color change of a single small color block of the anti-counterfeiting code can have 16.78 million color changes according to the agreed transcoding encryption comparison table, and each anti-counterfeiting code has 100 to 10,000 small color blocks, and The small color block has 16.78 million to the 10000th power of arrangement and combination order, that is, its anti-counterfeiting code can be combined at most 1678^10000^∞, the probability of two identical anti-counterfeiting codes is Infinity, the symbol ∞ is infinity, Infinity It is the power of ∞ to ∞, and the mathematical formula is abbreviated as ∞^∞.

Using the above scheme to realize the color mixing encryption method, each color block is distributed in different shapes, the distribution is counted as 1, and the color is counted as 2, the following color block patterns can be obtained, and the three blocks become an RGB Counting mode, for example using the Tetris pattern will be shown in graph form:

As a preferred embodiment, the anti-counterfeiting password of the agreed pattern is double-specified with the agreed number to perform hybrid verification based on the database, and it is characterized in that: the hybrid verification is to multiply the power of the transcoding encryption comparison table according to the contract. The pattern of the one-dimensional code and the two-dimensional code formed by the calculated positioning logic of the specific mixed color blocks.

By adopting the above scheme, the two-dimensional code can be generated in a manner that the colors corresponding to the above deception algorithms form a brand-new random block pattern.

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

By adopting the above scheme, in order to achieve the above purpose, the intelligent Ross square digital graphics multiple encryption anti-counterfeiting technology is adopted. The specific implementation includes five steps: the generation method of the intelligent Ross anti-counterfeiting code, the verification method, the intelligent anti-counterfeiting code generation system, and the whole process data security production management system , verification service system

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

1.1. The anti-counterfeiting clear code is generated based on the coding rules of the designated software cloud system. The current code-generating rule of the specified software is the enterprise code plus the raw code batch followed by the serial code of the machine; the encrypted anti-counterfeiting code after the combination can use the DES algorithm for 13-24-bit systems Multiple encryption of anti-counterfeiting clear code;

1.2. Then generate the QR CODE from the encrypted two-dimensional code. Use the chaotic image encryption technology to encrypt the image data stream. The two-dimensional code and the encrypted graphic code are spliced and synthesized. Using the image encryption technology of secret segmentation and secret sharing, the splicing The resulting image is divided into multiple quadrant blocks, and the basic color matching algorithm is used to assign color to each block and superimpose the Ross invisible dense pattern encryption technology at the bottom of the label or in a local area;

2. The verification method of the smart Ross anti-counterfeiting code includes the following steps:

2.1. Use the terminal scanning device to scan the smart Ross anti-counterfeiting code;

2.2. Reverse analysis of anti-counterfeiting two-dimensional code data, while collecting intelligent Ross anti-counterfeiting code images;

2.3. Verify and query the QR code data and cloud data;

2.4. After the basic data verification of the QR code is passed, compare the collected image with the database image to confirm that the collected smart Ross anti-counterfeiting code and the data of the cloud server are consistent;

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

3.1. Anti-counterfeiting code generation module;

3.2. Intelligent Ross anti-counterfeiting code splicing module;

3.3. Invisible dense pattern module;

3.4. Intelligent synthesis module;

3.5. Block segmentation module;

3.6. Color assignment module;

3.7. Anti-counterfeiting code generation module;

4. The whole process data security production management system of intelligent Ross anti-counterfeiting code includes the following contents:

4.1. Prenatal control (to ensure that metadata cannot be leaked);

4.1.1. Socket handshake protocol: Based on the TCP/IP protocol, it is used to support the download of the coding system code, as well as the new digital code download method, which is convenient for batch downloading of large amounts of data. The analog TCP handshake information can be customized to ensure that the connection end comes from Company authorization procedures;

4.1.2. RSA asymmetric encryption: The public and private keys are given by the company or the user, and the Ross smart anti-counterfeiting code is effectively encrypted during the download and transmission process. After encryption, it is difficult to restore the original data without a second key. Content, the data is intercepted in the natural process, and it will not cause data loss, except for the artificial disclosure of public and private keys;

4.1.3. Generation of terminal industrial computer management: To manage the equipment that can run the coding program, it must be installed and used on the equipment authorized by the system. In order to achieve this purpose, machine code binding is used. Whether the authorization data is the same, when the hardware equipment conditions change, the program prompts invalid authorization, and the terminal must submit a re-authorization application to the system at this time;

4.2. In-production management and control (safety protection in the production process to ensure effective management and control of scrapped standards)

4.2.1. Data statistics: Effective data statistics are implemented for each process link during the production flow, and the data is accurate to each label;

4.2.2. Data recycling: According to the data statistics in the circulation process, unified recycling is implemented to prevent the occurrence of lost and outflow of waste labels;

4.2.3. Data Destruction: After the scrap data is collected, it will be destroyed regularly according to customer requirements;

4.3. Postpartum control (postpartum safety protection is activated and managed flexibly by the brand on demand);

4.3.1. Batch activation: The brand party activates anti-counterfeiting data in batches according to the production batch of anti-counterfeiting codes, and all anti-counterfeiting codes can only be effectively queried after activation;

4.3.2. Number segment activation: The brand side needs to activate the number segment according to the whole batch of anti-counterfeiting data, and the number segment that is not activated needs to be activated before it can be used normally;

4.3.3. Single number activation: The anti-counterfeiting data needed to be used for the brand party's single-code activation can be activated in the background or automatically after delivery by the warehouse staff;

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

5.1. Image scanning module;

5.2. Data analysis module;

5.3. Intelligent Ross anti-counterfeiting code verification module;

5.3.1. Smart Ross image code verification;

5.3.2. Smart Ross invisible password verification;

5.3.3. Smart Ross block color code verification;

5.4. Verification feedback result module;

Compared with the prior art, the beneficial effects of the present invention are:

This technology is an intelligent Ross color block multiple chaotic graphics encryption anti-deciphering and anti-counterfeiting technology. Based on the database, the anti-counterfeiting password of the agreed pattern is double-specified and the agreed number is mixed for verification. The code data center module uses the chaotic image encryption technology to make a secondary agreement on the absolute value of the image data stream, splices and synthesizes the QR code and the agreed hexadecimal code of the encrypted graphic, and then uses the cloud-defined numerical segmentation and secret directional numerical value. The image encryption technology divides the spliced image into multiple quadrant blocks. By specifying data in the cloud, the intermediate value of RGB value (0.0.0) - RGB value (255.255.255) is color limited and specified. The hexadecimal value is related to the agreed color block. The basic color matching algorithm assigns color to each block, and the invisible agreed pattern encryption technology can be superimposed on the designated area of the label. Multiple encryption technology can be used to produce intelligent RGB fixed value square digital graphics with multiple conventions. Type encryption anti-counterfeiting labels, multiple anti-counterfeiting encryption technologies can be correlated with each other and independently analyzed; this technology uses closed-loop management for anti-counterfeiting data security, and can effectively manage and control different ports of data generation, label pre-production, production and post-production, which is an intelligent anti-counterfeiting label. Provides highly reliable and safe production management and control scenarios; the technology of the present invention has the characteristics of high imitation transfer cost, low deployment cost, etc., and can be applied to products in various industries.

Detailed ways

The present invention will be further described below in conjunction with the embodiments.

The following examples are used to illustrate the present invention, but cannot be used to limit the protection scope of the present invention. Conditions in the examples can be further adjusted according to specific conditions, and simple improvements to the method of the present invention under the premise of the concept of the present invention all belong to the scope of protection of the present invention.

The invention provides an intelligent Ross color block multiple chaotic graphics encryption anti-deciphering and anti-counterfeiting technology, including a smart Ross anti-counterfeiting code and a smart Ross anti-counterfeiting code, a verification method, a generation system, a whole-process data security production management system and a verification service system. The intelligent Ross anti-counterfeiting code is an orderly encrypted graphic anti-counterfeiting code formed by multiple encryption of intelligent RGB fixed-value square digital graphics. Based on the database, the anti-counterfeiting password of the agreed pattern is double-specified with the agreed number for mixed verification, and the agreed value becomes the editing agreement-specific code. The one-dimensional code/two-dimensional code data center module uses the chaotic image encryption technology to make a second agreement on the absolute value of the image data stream, and splices and synthesizes the agreed mixed 2-128 hexadecimal code of the two-dimensional code and the encrypted graphics. Then use the image encryption technology of limited value segmentation and secret directional value in the cloud to divide the spliced image into multiple quadrant blocks, and specify the data in the cloud, RGB value (0.0.0)-RGB value (255.255 .255) The intermediate value is color-limited and a certain base value is specified to be related to the agreed color block. The basic color matching algorithm is to assign color to each block, and the invisible agreed-pattern encryption technology can be superimposed on the designated area of the label to integrate multiple encryptions. The technology produces intelligent RGB fixed value square digital graphics multi-convention encryption anti-counterfeiting labels, and the multiple anti-counterfeiting encryption technologies can be correlated with each other and independently analyzed.

An orderly encrypted graphic anti-counterfeiting code one-dimensional code or two-dimensional code formed by multiple encryption of intelligent RGB fixed-value square digital graphics is characterized in that: multiple encryption of the anti-counterfeiting code is performed on the intelligent RGB fixed-value square digital graphics in the cloud, and intelligent equipment can be used. Send data packets in the cloud to reverse the identification and decryption of the anti-counterfeiting code. The RGB fixed value box is used as the basic computer color block generation rule. A contracted transcoding encryption comparison table is set. When printing and transcoding, CMYK transcoding can be performed according to the comparison table. The CMYK transcoding is a multi-binary encryption table-to-standard transcoding mode, and the encrypted comparison table can perform mixed sorting and 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 be transcoded according to the agreement. There are 16.78 million color changes in the encryption comparison table. There are 100 to 10,000 small color blocks on each anti-counterfeiting code, and the small color block has 16.78 million to the 10,000th power. The order of permutation and combination, that is, its anti-counterfeiting codes can be combined at most 1678^10000^∞, the probability of occurrence of two identical anti-counterfeiting codes is Infinity, the symbol ∞ is infinity, and Infinity is ∞ to the power of ∞, the mathematical formula Abbreviated as ∞^∞.

Based on the database, the anti-counterfeiting password of the agreed pattern is double-specified with the agreed number for mixed verification, and it is characterized in that: the mixed verification is the positioning logic of the specific mixed color block calculated by multiplying the power of the contracted transcoding encryption comparison table. The pattern of the one-dimensional code and the two-dimensional code formed.

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

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, and substitutions can be made in these embodiments without departing from the principle and spirit of the invention and modifications, the scope of the invention is defined by 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.