CN109754260B - Anti-counterfeiting system based on vibration information characteristics and two-dimension code identification - Google Patents

Abstract

The invention discloses an anti-counterfeiting system based on vibration information characteristics and two-dimensional code recognition, which comprises an anti-counterfeiting characteristic unit and an anti-counterfeiting recognition unit, wherein the main body of the anti-counterfeiting characteristic unit is a stainless steel substrate of a commodity, a vibrating piece sensitive to fine vibration and a vibration sensor for monitoring the vibration condition of the substrate are adhered on the substrate, and one side of the vibrating piece is subjected to ink-jet printing of a two-dimensional code corresponding to the vibration piece along with the change information of the vibration amplitude of sound; the anti-counterfeiting recognition unit comprises a handheld client device used for playing sound, collecting images of vibration amplitude changes of the vibration plate along with the sound and recognizing the two-dimensional code, and the vibration sensor and the handheld client device are respectively in wireless communication with the server. According to the invention, only the vibration condition information of the substrate along with the sound is stored, and the corresponding vibration piece along with the vibration amplitude change information of the sound is calculated on site according to the two-dimensional code during anti-counterfeiting judgment, so that the storage space is greatly saved.

Description

Anti-counterfeiting system based on vibration information characteristics and two-dimension code identification

Technical Field

The invention relates to an anti-counterfeiting system, in particular to an anti-counterfeiting system based on vibration information characteristics and two-dimensional code identification. Belongs to the field of anti-fake technology.

Background

With the continuous development of economy, commodities also show diversified development, so that the demands of vast consumers are met, but a large number of fake and inferior products are brought along, so that the health development of national economy is affected, and the benefits of merchants and vast consumers are damaged. Therefore, anti-counterfeiting and counterfeiting are an important problem in the commodity circulation process.

The variety of anti-counterfeiting technologies in the current market is various, including laser holographic anti-counterfeiting, fluorescent ink anti-counterfeiting, anti-counterfeiting printing, anti-counterfeiting of a queriable password telephone and the like. However, as the counterfeit criminals crack the existing mature anti-counterfeiting technology, the existing anti-counterfeiting labels are copied and recovered, and effective anti-counterfeiting cannot be realized. Some emerging anti-counterfeiting means are often difficult to identify or have high requirements on identification equipment, so that convenience of on-site identification of consumers is affected.

In recent years, the texture anti-counterfeiting technology attracts attention, and the anti-counterfeiting technology takes the inherent speckle mark of the packaging material as an anti-counterfeiting identification mark. The natural speckle is always quite different, and the textures such as fingerprints, wood grains, stone grains, zebra grains, ice grains, leaf grains and the like are random, unique and impossible to have two identical textures. By utilizing the principle, the anti-counterfeiting label is made of packaging materials with clear textures, and the speckle mark of each label material is photographed, numbered and documented and stored in an anti-counterfeiting database. Consumers can conveniently inquire files through Internet, fax and telephone to identify the authenticity. However, the existing texture anti-counterfeiting technology has many problems, such as: depending on the natural texture, the corresponding image data amount is too large, and the required hardware storage device has large capacity and high cost.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide an anti-counterfeiting system based on vibration information characteristics and two-dimensional code identification.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

an anti-counterfeiting system based on vibration information characteristics and two-dimension code identification comprises an anti-counterfeiting characteristic unit and an anti-counterfeiting identification unit, wherein the anti-counterfeiting characteristic unit is characterized in that a main body of the anti-counterfeiting characteristic unit is a stainless steel substrate of a commodity, a vibration piece sensitive to fine vibration and a vibration sensor for monitoring the vibration condition of the substrate are adhered to the substrate, and one side of the vibration piece is subjected to ink-jet printing with a two-dimension code corresponding to the vibration piece along with the change information of the vibration amplitude of sound; the anti-counterfeiting recognition unit comprises handheld client equipment used for playing sound, collecting images of vibration amplitude changes of the vibration piece along with the sound and recognizing the two-dimensional code, and the vibration sensor and the handheld client equipment are respectively in wireless communication with the server.

Preferably, the vibration piece is a thin copper sheet with the thickness of 0.2-0.3 mm.

Preferably, the handheld client device is a mobile phone.

Preferably, the vibrating piece and the substrate are bonded through fragile paper, the vibrating piece and the substrate are fixed together by adopting a mode of bonding the two sides of the fragile paper, and once the vibrating piece is pulled open, the fragile paper is damaged by naked eyes.

Preferably, a shell is arranged at the bottom of the substrate, and an anti-magnetic interference device, a temperature control device, a positioning device, a position information memory, a warning device, a power supply and a charging device (preferably a wireless charging device) are arranged in the shell, wherein flexible materials are filled between the components so as to avoid collision of the components in the commodity transportation process; the method comprises the following steps:

the temperature control device is used for setting two thresholds of high temperature and low temperature, and automatically works when the external temperature is higher than the high temperature threshold or lower than the low temperature threshold, so that the temperature of the components in the shell is controlled to be in front of the high temperature threshold and the low temperature threshold, and the service life of each component is ensured;

the positioning device and the position information memory can record the position change information of the tag;

and the warning device is used for setting a warning event, and when the warning event occurs, the warning device sends out mechanical waves or electromagnetic waves to warn.

Preferably, the anti-counterfeiting system further comprises a fixing device and a self-destruction device, wherein the fixing device is used for realizing connection between the substrate and the commodity, and the self-destruction device is automatically started when the fixing device is displaced or damaged so as to cause at least one of the following results: the substrate is damaged by naked eyes of a human body; and/or sending the anti-counterfeiting failure information to a server.

The manufacturing method of the anti-counterfeiting system comprises the following steps:

(A) The handheld client device plays the set sound clip, and the vibration sensor collects the vibration condition information of the base along with the sound and sends the vibration condition information to the server for storage;

(B) When the handheld client device plays the set sound clip, image information of vibration amplitude of the vibration piece along with the sound is collected at the same time, the corresponding two-dimensional code is generated through server operation, and the two-dimensional code is printed on one side of the vibration piece in an inkjet mode.

Preferably, the two-dimensional code in the step (B) is generated by adopting a combination algorithm of an SM3 hash algorithm and one or any of the following algorithms: RC4 algorithm, and/or B-M algorithm, and/or MD5 algorithm, and/or A5 algorithm, and/or SEAL algorithm.

Further preferably, the two-dimensional code is generated by combining an SM3 hash algorithm and an RC4 algorithm.

The anti-counterfeiting method based on vibration information characteristics and two-dimensional code identification by using the anti-counterfeiting system comprises the following specific steps:

(1) The handheld client device plays the set sound clip, collects the vibration amplitude image information of the vibration piece along with the sound by using the handheld client device, identifies the two-dimensional code and sends the information to the server;

(2) The server analyzes (reversely calculates) the vibration amplitude image information of the vibration piece along with the sound according to the collected two-dimensional code, compares the vibration amplitude image information with the image information collected in the step (1), and enters the step (3) if the vibration amplitude image information is consistent with the image information, if the vibration amplitude image information is inconsistent with the image information, the commodity is judged to be false, and the process is ended;

(3) The vibration sensor collects vibration condition information of the substrate along with sound and transmits the vibration condition information to the server in real time, whether the vibration condition information is completely consistent with the vibration condition information stored in the server is judged, if yes, the step (4) is started, otherwise, the commodity is judged to be false, and the process is ended;

(4) And (3) matching the base vibration condition information acquired in the step (3) with the corresponding vibration amplitude image information of the vibration piece, judging whether the base vibration condition information acquired again is matched with the vibration amplitude image information of the vibration piece when the fake verification is requested again, if so, judging that the base vibration condition information is true, otherwise, judging that the commodity is false, and ending.

The invention has the beneficial effects that:

1. the anti-counterfeiting system comprises an anti-counterfeiting characteristic unit and an anti-counterfeiting recognition unit, wherein the vibration condition information of the base along with the sound and the vibration amplitude change information of the vibration plate along with the sound are matched, the server only stores the vibration condition information of the base along with the sound, and the corresponding vibration plate along with the sound vibration amplitude change information is calculated on site according to the two-dimensional code during anti-counterfeiting judgment, so that the storage space is greatly saved.

2. The handheld client device can conveniently collect images of vibration amplitude changes of the vibration piece along with sound vibration, can identify the two-dimensional code, and then wirelessly transmits data information to the server for processing, and can realize the functions by using a common mobile phone without additionally providing special high-end equipment. The vibration sensor can sensitively monitor the vibration condition of the substrate along with sound and transmit the vibration condition to the server in real time.

3. The invention has the characteristics of incapability of being copied and recovered, low counterfeiting probability, low cost, suitability for various commodities in various industries, high counterfeiting cost and the like. The vibration condition information of the base along with the sound is completely matched with the vibration amplitude change information of the vibration plate along with the sound, so that the vibration condition of the specific base and the vibration plate along with the sound is unique, but after one-time anti-counterfeiting verification, the vibration condition information of the base along with the sound is matched with the vibration plate along with the vibration amplitude change information of the vibration plate, and a counterfeiter can hardly copy the base and the vibration plate which are completely consistent in size, state and the like, thereby achieving the anti-counterfeiting purpose.

4. For counterfeiters, the cracking algorithm can not be imitated, and the corresponding algorithm of the two-dimensional code and the vibration piece changing along with the vibration amplitude of the sound can be mastered for imitation, so that the counterfeiter difficulty of lawless persons is effectively improved.

5. Two or three or four calculation factors can be adopted for encryption calculation during two-dimensional code generation, and iterative operation of different algorithms can be adopted, so that the anti-counterfeiting performance is greatly improved, and the counterfeiting difficulty is reduced.

6. The invention can be used alone or in combination with other self-destroying devices, and can prevent duplication and recycling, thereby greatly enhancing the anti-counterfeiting performance.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

wherein 1 is a substrate, 2 is a vibrating piece, 3 is a vibration sensor, 4 is a two-dimensional code, 5 is a mobile phone, and 6 is a server.

Detailed Description

The invention is further illustrated in the following figures and examples, which are provided for the purpose of illustration only and are not intended to be limiting.

Example 1:

the anti-counterfeiting system based on vibration information characteristics and two-dimensional code recognition shown in fig. 1 comprises an anti-counterfeiting characteristic unit and an anti-counterfeiting recognition unit, wherein the main body of the anti-counterfeiting characteristic unit is a stainless steel substrate 1 of a commodity, a vibration piece 2 sensitive to fine vibration and a vibration sensor 3 for monitoring the vibration condition of the substrate are adhered to the substrate 1, and one side of the vibration piece 2 is subjected to ink-jet printing with a two-dimensional code 4 corresponding to the vibration piece 2 along with the change information of the vibration amplitude of sound; the anti-counterfeiting recognition unit comprises a mobile phone 5 for playing sound, collecting images of vibration amplitude changes of the vibration piece 2 along with the sound and recognizing the two-dimensional code 4, and the vibration sensor 3 and the mobile phone 5 are respectively in wireless communication with the server 6.

The vibration plate 2 is a thin copper sheet with the thickness of 0.2 mm. The vibrating piece 2 and the substrate 1 are bonded through fragile paper, the vibrating piece 2 and the substrate 1 are fixed together by adopting a fragile paper double-sided bonding mode, and once the vibrating piece 2 is pulled open, the fragile paper is damaged by naked eyes.

The bottom of the substrate 1 is provided with a shell, and an anti-magnetic interference device, a temperature control device, a positioning device, a position information memory, a warning device, a power supply and a charging device (wireless charging device) are arranged in the shell; the method comprises the following steps:

the temperature control device is used for setting two thresholds of high temperature and low temperature, and automatically works when the external temperature is higher than the high temperature threshold or lower than the low temperature threshold, so that the temperature of the components in the shell is controlled to be in front of the high temperature threshold and the low temperature threshold, and the service life of each component is ensured;

the positioning device and the position information memory can record the position change information of the tag;

and the warning device is used for setting a warning event, and when the warning event occurs, the warning device sends out mechanical waves or electromagnetic waves to warn.

The anti-counterfeiting system further comprises a fixing device and a self-destruction device, wherein the fixing device is used for realizing connection between the substrate 1 and a commodity, and the self-destruction device is automatically started when the fixing device is displaced or damaged so as to cause at least one of the following results: the substrate 1 is damaged by human eyes; and/or send anti-counterfeiting failure information to the server 6.

The manufacturing method of the anti-counterfeiting system comprises the following steps:

(A) The mobile phone 5 plays the set sound fragment, and the vibration sensor 3 collects the vibration condition information of the base 1 along with the sound and sends the vibration condition information to the server 6 for storage;

(B) When the mobile phone 5 plays the set sound clip, the vibration amplitude image information of the vibration piece 2 along with the sound is collected at the same time, the vibration amplitude image information is calculated by the server 6 to generate a corresponding two-dimensional code 4, and the two-dimensional code 4 is printed on one side of the vibration piece 2 in an inkjet mode.

In the step (B), the two-dimensional code 4 is generated by adopting an SM3 hash algorithm and an RC4 algorithm.

The anti-counterfeiting method based on vibration information characteristics and two-dimensional code identification by using the anti-counterfeiting system comprises the following specific steps:

(1) The mobile phone 5 plays the set sound fragment, the mobile phone 5 is used for collecting the vibration amplitude image information of the vibration piece 2 along with the sound, identifying the two-dimensional code 4 and sending the information to the server 6;

(2) The server 6 analyzes (reversely calculates) the vibration amplitude image information of the vibration piece 2 along with the sound according to the collected two-dimensional code 4, compares the vibration amplitude image information with the image information collected in the step (1), and enters the step (3) if the vibration amplitude image information is consistent with the image information, if the vibration amplitude image information is inconsistent with the image information, the commodity is judged to be false, and the process is ended;

(3) The vibration sensor 3 collects vibration condition information of the substrate 1 along with sound and transmits the vibration condition information to the server 6 in real time, whether the vibration condition information is completely consistent with the vibration condition information stored in the server 6 is judged, if yes, the step (4) is entered, otherwise, the commodity is judged to be false, and the process is ended;

(4) And (3) matching the vibration condition information of the substrate 1 acquired in the step (3) with the corresponding vibration amplitude image information of the vibration piece 2, judging whether the vibration condition information of the substrate 1 acquired again is matched with the vibration amplitude image information of the vibration piece 2 or not when the verification is requested again, if so, judging that the judgment is true, otherwise, judging that the commodity is false, and ending.

Example 2:

the anti-counterfeiting system based on vibration information characteristics and two-dimensional code recognition shown in fig. 1 comprises an anti-counterfeiting characteristic unit and an anti-counterfeiting recognition unit, wherein the main body of the anti-counterfeiting characteristic unit is a stainless steel substrate 1 of a commodity, a vibration piece 2 sensitive to fine vibration and a vibration sensor 3 for monitoring the vibration condition of the substrate are adhered to the substrate 1, and one side of the vibration piece 2 is subjected to ink-jet printing with a two-dimensional code 4 corresponding to the vibration piece 2 along with the change information of the vibration amplitude of sound; the anti-counterfeiting recognition unit comprises a mobile phone 5 for playing sound, collecting images of vibration amplitude changes of the vibration piece 2 along with the sound and recognizing the two-dimensional code 4, and the vibration sensor 3 and the mobile phone 5 are respectively in wireless communication with the server 6.

The vibration plate 2 is a thin copper sheet with the thickness of 0.3 mm. The vibrating piece 2 and the substrate 1 are bonded through fragile paper, the vibrating piece 2 and the substrate 1 are fixed together by adopting a fragile paper double-sided bonding mode, and once the vibrating piece 2 is pulled open, the fragile paper is damaged by naked eyes.

The bottom of the substrate 1 is provided with a shell, and an anti-magnetic interference device, a temperature control device, a positioning device, a position information memory, a warning device, a power supply and a charging device (wireless charging device) are arranged in the shell; the method comprises the following steps:

the temperature control device is used for setting two thresholds of high temperature and low temperature, and automatically works when the external temperature is higher than the high temperature threshold or lower than the low temperature threshold, so that the temperature of the components in the shell is controlled to be in front of the high temperature threshold and the low temperature threshold, and the service life of each component is ensured;

the positioning device and the position information memory can record the position change information of the tag;

and the warning device is used for setting a warning event, and when the warning event occurs, the warning device sends out mechanical waves or electromagnetic waves to warn.

The anti-counterfeiting system further comprises a fixing device and a self-destruction device, wherein the fixing device is used for realizing connection between the substrate 1 and a commodity, and the self-destruction device is automatically started when the fixing device is displaced or damaged so as to cause at least one of the following results: the substrate 1 is damaged by human eyes; and/or send anti-counterfeiting failure information to the server 6.

The manufacturing method of the anti-counterfeiting system comprises the following steps:

(A) The mobile phone 5 plays the set sound fragment, and the vibration sensor 3 collects the vibration condition information of the base 1 along with the sound and sends the vibration condition information to the server 6 for storage;

(B) When the mobile phone 5 plays the set sound clip, the vibration amplitude image information of the vibration piece 2 along with the sound is collected at the same time, the vibration amplitude image information is calculated by the server 6 to generate a corresponding two-dimensional code 4, and the two-dimensional code 4 is printed on one side of the vibration piece 2 in an inkjet mode.

In the step (B), the two-dimensional code 4 is generated by adopting a combination algorithm of an SM3 hash algorithm and a B-M algorithm.

The anti-counterfeiting method based on vibration information characteristics and two-dimensional code identification by using the anti-counterfeiting system comprises the following specific steps:

(1) The mobile phone 5 plays the set sound fragment, the mobile phone 5 is used for collecting the vibration amplitude image information of the vibration piece 2 along with the sound, identifying the two-dimensional code 4 and sending the information to the server 6;

(2) The server 6 analyzes (reversely calculates) the vibration amplitude image information of the vibration piece 2 along with the sound according to the collected two-dimensional code 4, compares the vibration amplitude image information with the image information collected in the step (1), and enters the step (3) if the vibration amplitude image information is consistent with the image information, if the vibration amplitude image information is inconsistent with the image information, the commodity is judged to be false, and the process is ended;

(3) The vibration sensor 3 collects vibration condition information of the substrate 1 along with sound and transmits the vibration condition information to the server 6 in real time, whether the vibration condition information is completely consistent with the vibration condition information stored in the server 6 is judged, if yes, the step (4) is entered, otherwise, the commodity is judged to be false, and the process is ended;

(4) And (3) matching the vibration condition information of the substrate 1 acquired in the step (3) with the corresponding vibration amplitude image information of the vibration piece 2, judging whether the vibration condition information of the substrate 1 acquired again is matched with the vibration amplitude image information of the vibration piece 2 or not when the verification is requested again, if so, judging that the judgment is true, otherwise, judging that the commodity is false, and ending.

Example 3:

the anti-counterfeiting system based on vibration information characteristics and two-dimensional code recognition shown in fig. 1 comprises an anti-counterfeiting characteristic unit and an anti-counterfeiting recognition unit, wherein the main body of the anti-counterfeiting characteristic unit is a stainless steel substrate 1 of a commodity, a vibration piece 2 sensitive to fine vibration and a vibration sensor 3 for monitoring the vibration condition of the substrate are adhered to the substrate 1, and one side of the vibration piece 2 is subjected to ink-jet printing with a two-dimensional code 4 corresponding to the vibration piece 2 along with the change information of the vibration amplitude of sound; the anti-counterfeiting recognition unit comprises a mobile phone 5 for playing sound, collecting images of vibration amplitude changes of the vibration piece 2 along with the sound and recognizing the two-dimensional code 4, and the vibration sensor 3 and the mobile phone 5 are respectively in wireless communication with the server 6.

The vibration plate 2 is a thin copper sheet with the thickness of 0.2 mm. The vibrating piece 2 and the substrate 1 are bonded through fragile paper, the vibrating piece 2 and the substrate 1 are fixed together by adopting a fragile paper double-sided bonding mode, and once the vibrating piece 2 is pulled open, the fragile paper is damaged by naked eyes.

The bottom of the substrate 1 is provided with a shell, and an anti-magnetic interference device, a temperature control device, a positioning device, a position information memory, a warning device, a power supply and a charging device (wireless charging device) are arranged in the shell; the method comprises the following steps:

the temperature control device is used for setting two thresholds of high temperature and low temperature, and automatically works when the external temperature is higher than the high temperature threshold or lower than the low temperature threshold, so that the temperature of the components in the shell is controlled to be in front of the high temperature threshold and the low temperature threshold, and the service life of each component is ensured;

the positioning device and the position information memory can record the position change information of the tag;

and the warning device is used for setting a warning event, and when the warning event occurs, the warning device sends out mechanical waves or electromagnetic waves to warn.

The anti-counterfeiting system further comprises a fixing device and a self-destruction device, wherein the fixing device is used for realizing connection between the substrate 1 and a commodity, and the self-destruction device is automatically started when the fixing device is displaced or damaged so as to cause at least one of the following results: the substrate 1 is damaged by human eyes; and/or send anti-counterfeiting failure information to the server 6.

The manufacturing method of the anti-counterfeiting system comprises the following steps:

(A) The mobile phone 5 plays the set sound fragment, and the vibration sensor 3 collects the vibration condition information of the base 1 along with the sound and sends the vibration condition information to the server 6 for storage;

(B) When the mobile phone 5 plays the set sound clip, the vibration amplitude image information of the vibration piece 2 along with the sound is collected at the same time, the vibration amplitude image information is calculated by the server 6 to generate a corresponding two-dimensional code 4, and the two-dimensional code 4 is printed on one side of the vibration piece 2 in an inkjet mode.

In the step (B), the two-dimensional code 4 is generated by adopting a combination algorithm of an SM3 hash algorithm and an MD5 algorithm.

The anti-counterfeiting method based on vibration information characteristics and two-dimensional code identification by using the anti-counterfeiting system comprises the following specific steps:

(1) The mobile phone 5 plays the set sound fragment, the mobile phone 5 is used for collecting the vibration amplitude image information of the vibration piece 2 along with the sound, identifying the two-dimensional code 4 and sending the information to the server 6;

(2) The server 6 analyzes (reversely calculates) the vibration amplitude image information of the vibration piece 2 along with the sound according to the collected two-dimensional code 4, compares the vibration amplitude image information with the image information collected in the step (1), and enters the step (3) if the vibration amplitude image information is consistent with the image information, if the vibration amplitude image information is inconsistent with the image information, the commodity is judged to be false, and the process is ended;

(3) The vibration sensor 3 collects vibration condition information of the substrate 1 along with sound and transmits the vibration condition information to the server 6 in real time, whether the vibration condition information is completely consistent with the vibration condition information stored in the server 6 is judged, if yes, the step (4) is entered, otherwise, the commodity is judged to be false, and the process is ended;

(4) And (3) matching the vibration condition information of the substrate 1 acquired in the step (3) with the corresponding vibration amplitude image information of the vibration piece 2, judging whether the vibration condition information of the substrate 1 acquired again is matched with the vibration amplitude image information of the vibration piece 2 or not when the verification is requested again, if so, judging that the judgment is true, otherwise, judging that the commodity is false, and ending.

Example 4:

the anti-counterfeiting system based on vibration information characteristics and two-dimensional code recognition shown in fig. 1 comprises an anti-counterfeiting characteristic unit and an anti-counterfeiting recognition unit, wherein the main body of the anti-counterfeiting characteristic unit is a stainless steel substrate 1 of a commodity, a vibration piece 2 sensitive to fine vibration and a vibration sensor 3 for monitoring the vibration condition of the substrate are adhered to the substrate 1, and one side of the vibration piece 2 is subjected to ink-jet printing with a two-dimensional code 4 corresponding to the vibration piece 2 along with the change information of the vibration amplitude of sound; the anti-counterfeiting recognition unit comprises a mobile phone 5 for playing sound, collecting images of vibration amplitude changes of the vibration piece 2 along with the sound and recognizing the two-dimensional code 4, and the vibration sensor 3 and the mobile phone 5 are respectively in wireless communication with the server 6.

The vibration plate 2 is a thin copper sheet with the thickness of 0.3 mm. The vibrating piece 2 and the substrate 1 are bonded through fragile paper, the vibrating piece 2 and the substrate 1 are fixed together by adopting a fragile paper double-sided bonding mode, and once the vibrating piece 2 is pulled open, the fragile paper is damaged by naked eyes.

The bottom of the substrate 1 is provided with a shell, and an anti-magnetic interference device, a temperature control device, a positioning device, a position information memory, a warning device, a power supply and a charging device (wireless charging device) are arranged in the shell; the method comprises the following steps:

the temperature control device is used for setting two thresholds of high temperature and low temperature, and automatically works when the external temperature is higher than the high temperature threshold or lower than the low temperature threshold, so that the temperature of the components in the shell is controlled to be in front of the high temperature threshold and the low temperature threshold, and the service life of each component is ensured;

the positioning device and the position information memory can record the position change information of the tag;

and the warning device is used for setting a warning event, and when the warning event occurs, the warning device sends out mechanical waves or electromagnetic waves to warn.

The anti-counterfeiting system further comprises a fixing device and a self-destruction device, wherein the fixing device is used for realizing connection between the substrate 1 and a commodity, and the self-destruction device is automatically started when the fixing device is displaced or damaged so as to cause at least one of the following results: the substrate 1 is damaged by human eyes; and/or send anti-counterfeiting failure information to the server 6.

The manufacturing method of the anti-counterfeiting system comprises the following steps:

(A) The mobile phone 5 plays the set sound fragment, and the vibration sensor 3 collects the vibration condition information of the base 1 along with the sound and sends the vibration condition information to the server 6 for storage;

(B) When the mobile phone 5 plays the set sound clip, the vibration amplitude image information of the vibration piece 2 along with the sound is collected at the same time, the vibration amplitude image information is calculated by the server 6 to generate a corresponding two-dimensional code 4, and the two-dimensional code 4 is printed on one side of the vibration piece 2 in an inkjet mode.

In the step (B), the two-dimensional code 4 is generated by adopting a combination algorithm of an SM3 hash algorithm and an A5 algorithm.

The anti-counterfeiting method based on vibration information characteristics and two-dimensional code identification by using the anti-counterfeiting system comprises the following specific steps:

(1) The mobile phone 5 plays the set sound fragment, the mobile phone 5 is used for collecting the vibration amplitude image information of the vibration piece 2 along with the sound, identifying the two-dimensional code 4 and sending the information to the server 6;

(2) The server 6 analyzes (reversely calculates) the vibration amplitude image information of the vibration piece 2 along with the sound according to the collected two-dimensional code 4, compares the vibration amplitude image information with the image information collected in the step (1), and enters the step (3) if the vibration amplitude image information is consistent with the image information, if the vibration amplitude image information is inconsistent with the image information, the commodity is judged to be false, and the process is ended;

(3) The vibration sensor 3 collects vibration condition information of the substrate 1 along with sound and transmits the vibration condition information to the server 6 in real time, whether the vibration condition information is completely consistent with the vibration condition information stored in the server 6 is judged, if yes, the step (4) is entered, otherwise, the commodity is judged to be false, and the process is ended;

(4) And (3) matching the vibration condition information of the substrate 1 acquired in the step (3) with the corresponding vibration amplitude image information of the vibration piece 2, judging whether the vibration condition information of the substrate 1 acquired again is matched with the vibration amplitude image information of the vibration piece 2 or not when the verification is requested again, if so, judging that the judgment is true, otherwise, judging that the commodity is false, and ending.

Example 5:

the anti-counterfeiting system based on vibration information characteristics and two-dimensional code recognition shown in fig. 1 comprises an anti-counterfeiting characteristic unit and an anti-counterfeiting recognition unit, wherein the main body of the anti-counterfeiting characteristic unit is a stainless steel substrate 1 of a commodity, a vibration piece 2 sensitive to fine vibration and a vibration sensor 3 for monitoring the vibration condition of the substrate are adhered to the substrate 1, and one side of the vibration piece 2 is subjected to ink-jet printing with a two-dimensional code 4 corresponding to the vibration piece 2 along with the change information of the vibration amplitude of sound; the anti-counterfeiting recognition unit comprises a mobile phone 5 for playing sound, collecting images of vibration amplitude changes of the vibration piece 2 along with the sound and recognizing the two-dimensional code 4, and the vibration sensor 3 and the mobile phone 5 are respectively in wireless communication with the server 6.

The vibration plate 2 is a thin copper sheet with the thickness of 0.2 mm. The vibrating piece 2 and the substrate 1 are bonded through fragile paper, the vibrating piece 2 and the substrate 1 are fixed together by adopting a fragile paper double-sided bonding mode, and once the vibrating piece 2 is pulled open, the fragile paper is damaged by naked eyes.

The bottom of the substrate 1 is provided with a shell, and an anti-magnetic interference device, a temperature control device, a positioning device, a position information memory, a warning device, a power supply and a charging device (wireless charging device) are arranged in the shell; the method comprises the following steps:

the temperature control device is used for setting two thresholds of high temperature and low temperature, and automatically works when the external temperature is higher than the high temperature threshold or lower than the low temperature threshold, so that the temperature of the components in the shell is controlled to be in front of the high temperature threshold and the low temperature threshold, and the service life of each component is ensured;

the positioning device and the position information memory can record the position change information of the tag;

and the warning device is used for setting a warning event, and when the warning event occurs, the warning device sends out mechanical waves or electromagnetic waves to warn.

The anti-counterfeiting system further comprises a fixing device and a self-destruction device, wherein the fixing device is used for realizing connection between the substrate 1 and a commodity, and the self-destruction device is automatically started when the fixing device is displaced or damaged so as to cause at least one of the following results: the substrate 1 is damaged by human eyes; and/or send anti-counterfeiting failure information to the server 6.

The manufacturing method of the anti-counterfeiting system comprises the following steps:

(A) The mobile phone 5 plays the set sound fragment, and the vibration sensor 3 collects the vibration condition information of the base 1 along with the sound and sends the vibration condition information to the server 6 for storage;

(B) When the mobile phone 5 plays the set sound clip, the vibration amplitude image information of the vibration piece 2 along with the sound is collected at the same time, the vibration amplitude image information is calculated by the server 6 to generate a corresponding two-dimensional code 4, and the two-dimensional code 4 is printed on one side of the vibration piece 2 in an inkjet mode.

In the step (B), the two-dimensional code 4 is generated by adopting a combination algorithm of an SM3 hash algorithm and a SEAL algorithm.

The anti-counterfeiting method based on vibration information characteristics and two-dimensional code identification by using the anti-counterfeiting system comprises the following specific steps:

(1) The mobile phone 5 plays the set sound fragment, the mobile phone 5 is used for collecting the vibration amplitude image information of the vibration piece 2 along with the sound, identifying the two-dimensional code 4 and sending the information to the server 6;

(2) The server 6 analyzes (reversely calculates) the vibration amplitude image information of the vibration piece 2 along with the sound according to the collected two-dimensional code 4, compares the vibration amplitude image information with the image information collected in the step (1), and enters the step (3) if the vibration amplitude image information is consistent with the image information, if the vibration amplitude image information is inconsistent with the image information, the commodity is judged to be false, and the process is ended;

(3) The vibration sensor 3 collects vibration condition information of the substrate 1 along with sound and transmits the vibration condition information to the server 6 in real time, whether the vibration condition information is completely consistent with the vibration condition information stored in the server 6 is judged, if yes, the step (4) is entered, otherwise, the commodity is judged to be false, and the process is ended;

(4) And (3) matching the vibration condition information of the substrate 1 acquired in the step (3) with the corresponding vibration amplitude image information of the vibration piece 2, judging whether the vibration condition information of the substrate 1 acquired again is matched with the vibration amplitude image information of the vibration piece 2 or not when the verification is requested again, if so, judging that the judgment is true, otherwise, judging that the commodity is false, and ending.

Example 6:

the anti-counterfeiting system based on vibration information characteristics and two-dimensional code recognition shown in fig. 1 comprises an anti-counterfeiting characteristic unit and an anti-counterfeiting recognition unit, wherein the main body of the anti-counterfeiting characteristic unit is a stainless steel substrate 1 of a commodity, a vibration piece 2 sensitive to fine vibration and a vibration sensor 3 for monitoring the vibration condition of the substrate are adhered to the substrate 1, and one side of the vibration piece 2 is subjected to ink-jet printing with a two-dimensional code 4 corresponding to the vibration piece 2 along with the change information of the vibration amplitude of sound; the anti-counterfeiting recognition unit comprises a mobile phone 5 for playing sound, collecting images of vibration amplitude changes of the vibration piece 2 along with the sound and recognizing the two-dimensional code 4, and the vibration sensor 3 and the mobile phone 5 are respectively in wireless communication with the server 6.

The vibration plate 2 is a thin copper sheet with the thickness of 0.3 mm. The vibrating piece 2 and the substrate 1 are bonded through fragile paper, the vibrating piece 2 and the substrate 1 are fixed together by adopting a fragile paper double-sided bonding mode, and once the vibrating piece 2 is pulled open, the fragile paper is damaged by naked eyes.

The bottom of the substrate 1 is provided with a shell, and an anti-magnetic interference device, a temperature control device, a positioning device, a position information memory, a warning device, a power supply and a charging device (wireless charging device) are arranged in the shell; the method comprises the following steps:

the temperature control device is used for setting two thresholds of high temperature and low temperature, and automatically works when the external temperature is higher than the high temperature threshold or lower than the low temperature threshold, so that the temperature of the components in the shell is controlled to be in front of the high temperature threshold and the low temperature threshold, and the service life of each component is ensured;

the positioning device and the position information memory can record the position change information of the tag;

and the warning device is used for setting a warning event, and when the warning event occurs, the warning device sends out mechanical waves or electromagnetic waves to warn.

The anti-counterfeiting system further comprises a fixing device and a self-destruction device, wherein the fixing device is used for realizing connection between the substrate 1 and a commodity, and the self-destruction device is automatically started when the fixing device is displaced or damaged so as to cause at least one of the following results: the substrate 1 is damaged by human eyes; and/or send anti-counterfeiting failure information to the server 6.

The manufacturing method of the anti-counterfeiting system comprises the following steps:

(A) The mobile phone 5 plays the set sound fragment, and the vibration sensor 3 collects the vibration condition information of the base 1 along with the sound and sends the vibration condition information to the server 6 for storage;

(B) When the mobile phone 5 plays the set sound clip, the vibration amplitude image information of the vibration piece 2 along with the sound is collected at the same time, the vibration amplitude image information is calculated by the server 6 to generate a corresponding two-dimensional code 4, and the two-dimensional code 4 is printed on one side of the vibration piece 2 in an inkjet mode.

In the step (B), the two-dimensional code 4 is generated by adopting a combination algorithm of an SM3 hash algorithm, an RC4 algorithm and a B-M algorithm.

The anti-counterfeiting method based on vibration information characteristics and two-dimensional code identification by using the anti-counterfeiting system comprises the following specific steps:

(1) The mobile phone 5 plays the set sound fragment, the mobile phone 5 is used for collecting the vibration amplitude image information of the vibration piece 2 along with the sound, identifying the two-dimensional code 4 and sending the information to the server 6;

(2) The server 6 analyzes (reversely calculates) the vibration amplitude image information of the vibration piece 2 along with the sound according to the collected two-dimensional code 4, compares the vibration amplitude image information with the image information collected in the step (1), and enters the step (3) if the vibration amplitude image information is consistent with the image information, if the vibration amplitude image information is inconsistent with the image information, the commodity is judged to be false, and the process is ended;

(3) The vibration sensor 3 collects vibration condition information of the substrate 1 along with sound and transmits the vibration condition information to the server 6 in real time, whether the vibration condition information is completely consistent with the vibration condition information stored in the server 6 is judged, if yes, the step (4) is entered, otherwise, the commodity is judged to be false, and the process is ended;

(4) And (3) matching the vibration condition information of the substrate 1 acquired in the step (3) with the corresponding vibration amplitude image information of the vibration piece 2, judging whether the vibration condition information of the substrate 1 acquired again is matched with the vibration amplitude image information of the vibration piece 2 or not when the verification is requested again, if so, judging that the judgment is true, otherwise, judging that the commodity is false, and ending.

Example 7:

the anti-counterfeiting system based on vibration information characteristics and two-dimensional code recognition shown in fig. 1 comprises an anti-counterfeiting characteristic unit and an anti-counterfeiting recognition unit, wherein the main body of the anti-counterfeiting characteristic unit is a stainless steel substrate 1 of a commodity, a vibration piece 2 sensitive to fine vibration and a vibration sensor 3 for monitoring the vibration condition of the substrate are adhered to the substrate 1, and one side of the vibration piece 2 is subjected to ink-jet printing with a two-dimensional code 4 corresponding to the vibration piece 2 along with the change information of the vibration amplitude of sound; the anti-counterfeiting recognition unit comprises a mobile phone 5 for playing sound, collecting images of vibration amplitude changes of the vibration piece 2 along with the sound and recognizing the two-dimensional code 4, and the vibration sensor 3 and the mobile phone 5 are respectively in wireless communication with the server 6.

The vibration plate 2 is a thin copper sheet with the thickness of 0.2 mm. The vibrating piece 2 and the substrate 1 are bonded through fragile paper, the vibrating piece 2 and the substrate 1 are fixed together by adopting a fragile paper double-sided bonding mode, and once the vibrating piece 2 is pulled open, the fragile paper is damaged by naked eyes.

The bottom of the substrate 1 is provided with a shell, and an anti-magnetic interference device, a temperature control device, a positioning device, a position information memory, a warning device, a power supply and a charging device (wireless charging device) are arranged in the shell; the method comprises the following steps:

the temperature control device is used for setting two thresholds of high temperature and low temperature, and automatically works when the external temperature is higher than the high temperature threshold or lower than the low temperature threshold, so that the temperature of the components in the shell is controlled to be in front of the high temperature threshold and the low temperature threshold, and the service life of each component is ensured;

the positioning device and the position information memory can record the position change information of the tag;

and the warning device is used for setting a warning event, and when the warning event occurs, the warning device sends out mechanical waves or electromagnetic waves to warn.

The anti-counterfeiting system further comprises a fixing device and a self-destruction device, wherein the fixing device is used for realizing connection between the substrate 1 and a commodity, and the self-destruction device is automatically started when the fixing device is displaced or damaged so as to cause at least one of the following results: the substrate 1 is damaged by human eyes; and/or send anti-counterfeiting failure information to the server 6.

The manufacturing method of the anti-counterfeiting system comprises the following steps:

(A) The mobile phone 5 plays the set sound fragment, and the vibration sensor 3 collects the vibration condition information of the base 1 along with the sound and sends the vibration condition information to the server 6 for storage;

(B) When the mobile phone 5 plays the set sound clip, the vibration amplitude image information of the vibration piece 2 along with the sound is collected at the same time, the vibration amplitude image information is calculated by the server 6 to generate a corresponding two-dimensional code 4, and the two-dimensional code 4 is printed on one side of the vibration piece 2 in an inkjet mode.

In the step (B), the two-dimensional code 4 is generated by adopting a combination algorithm of an SM3 hash algorithm, a B-M algorithm and an MD5 algorithm.

The anti-counterfeiting method based on vibration information characteristics and two-dimensional code identification by using the anti-counterfeiting system comprises the following specific steps:

(1) The mobile phone 5 plays the set sound fragment, the mobile phone 5 is used for collecting the vibration amplitude image information of the vibration piece 2 along with the sound, identifying the two-dimensional code 4 and sending the information to the server 6;

(2) The server 6 analyzes (reversely calculates) the vibration amplitude image information of the vibration piece 2 along with the sound according to the collected two-dimensional code 4, compares the vibration amplitude image information with the image information collected in the step (1), and enters the step (3) if the vibration amplitude image information is consistent with the image information, if the vibration amplitude image information is inconsistent with the image information, the commodity is judged to be false, and the process is ended;

(3) The vibration sensor 3 collects vibration condition information of the substrate 1 along with sound and transmits the vibration condition information to the server 6 in real time, whether the vibration condition information is completely consistent with the vibration condition information stored in the server 6 is judged, if yes, the step (4) is entered, otherwise, the commodity is judged to be false, and the process is ended;

(4) And (3) matching the vibration condition information of the substrate 1 acquired in the step (3) with the corresponding vibration amplitude image information of the vibration piece 2, judging whether the vibration condition information of the substrate 1 acquired again is matched with the vibration amplitude image information of the vibration piece 2 or not when the verification is requested again, if so, judging that the judgment is true, otherwise, judging that the commodity is false, and ending.

Example 8:

the anti-counterfeiting system based on vibration information characteristics and two-dimensional code recognition shown in fig. 1 comprises an anti-counterfeiting characteristic unit and an anti-counterfeiting recognition unit, wherein the main body of the anti-counterfeiting characteristic unit is a stainless steel substrate 1 of a commodity, a vibration piece 2 sensitive to fine vibration and a vibration sensor 3 for monitoring the vibration condition of the substrate are adhered to the substrate 1, and one side of the vibration piece 2 is subjected to ink-jet printing with a two-dimensional code 4 corresponding to the vibration piece 2 along with the change information of the vibration amplitude of sound; the anti-counterfeiting recognition unit comprises a mobile phone 5 for playing sound, collecting images of vibration amplitude changes of the vibration piece 2 along with the sound and recognizing the two-dimensional code 4, and the vibration sensor 3 and the mobile phone 5 are respectively in wireless communication with the server 6.

The vibration plate 2 is a thin copper sheet with the thickness of 0.3 mm. The vibrating piece 2 and the substrate 1 are bonded through fragile paper, the vibrating piece 2 and the substrate 1 are fixed together by adopting a fragile paper double-sided bonding mode, and once the vibrating piece 2 is pulled open, the fragile paper is damaged by naked eyes.

The bottom of the substrate 1 is provided with a shell, and an anti-magnetic interference device, a temperature control device, a positioning device, a position information memory, a warning device, a power supply and a charging device (wireless charging device) are arranged in the shell; the method comprises the following steps:

the temperature control device is used for setting two thresholds of high temperature and low temperature, and automatically works when the external temperature is higher than the high temperature threshold or lower than the low temperature threshold, so that the temperature of the components in the shell is controlled to be in front of the high temperature threshold and the low temperature threshold, and the service life of each component is ensured;

the positioning device and the position information memory can record the position change information of the tag;

and the warning device is used for setting a warning event, and when the warning event occurs, the warning device sends out mechanical waves or electromagnetic waves to warn.

The anti-counterfeiting system further comprises a fixing device and a self-destruction device, wherein the fixing device is used for realizing connection between the substrate 1 and a commodity, and the self-destruction device is automatically started when the fixing device is displaced or damaged so as to cause at least one of the following results: the substrate 1 is damaged by human eyes; and/or send anti-counterfeiting failure information to the server 6.

The manufacturing method of the anti-counterfeiting system comprises the following steps:

(A) The mobile phone 5 plays the set sound fragment, and the vibration sensor 3 collects the vibration condition information of the base 1 along with the sound and sends the vibration condition information to the server 6 for storage;

(B) When the mobile phone 5 plays the set sound clip, the vibration amplitude image information of the vibration piece 2 along with the sound is collected at the same time, the vibration amplitude image information is calculated by the server 6 to generate a corresponding two-dimensional code 4, and the two-dimensional code 4 is printed on one side of the vibration piece 2 in an inkjet mode.

In the step (B), the two-dimensional code 4 is generated by adopting a combination algorithm of an SM3 hash algorithm, an A5 algorithm and a SEAL algorithm.

The anti-counterfeiting method based on vibration information characteristics and two-dimensional code identification by using the anti-counterfeiting system comprises the following specific steps:

(1) The mobile phone 5 plays the set sound fragment, the mobile phone 5 is used for collecting the vibration amplitude image information of the vibration piece 2 along with the sound, identifying the two-dimensional code 4 and sending the information to the server 6;

(2) The server 6 analyzes (reversely calculates) the vibration amplitude image information of the vibration piece 2 along with the sound according to the collected two-dimensional code 4, compares the vibration amplitude image information with the image information collected in the step (1), and enters the step (3) if the vibration amplitude image information is consistent with the image information, if the vibration amplitude image information is inconsistent with the image information, the commodity is judged to be false, and the process is ended;

(3) The vibration sensor 3 collects vibration condition information of the substrate 1 along with sound and transmits the vibration condition information to the server 6 in real time, whether the vibration condition information is completely consistent with the vibration condition information stored in the server 6 is judged, if yes, the step (4) is entered, otherwise, the commodity is judged to be false, and the process is ended;

(4) And (3) matching the vibration condition information of the substrate 1 acquired in the step (3) with the corresponding vibration amplitude image information of the vibration piece 2, judging whether the vibration condition information of the substrate 1 acquired again is matched with the vibration amplitude image information of the vibration piece 2 or not when the verification is requested again, if so, judging that the judgment is true, otherwise, judging that the commodity is false, and ending.

While the foregoing description of the embodiments of the present invention has been presented with reference to the drawings, it is not intended to limit the scope of the invention, but rather, various modifications or variations can be made by those skilled in the art without the need of inventive effort on the basis of the technical solutions of the present invention.

Claims (1)

1. An anti-counterfeiting method based on vibration information characteristics and two-dimensional code identification by utilizing an anti-counterfeiting system is characterized by comprising the following specific steps:

(1) The handheld client device plays the set sound clip, collects the vibration amplitude image information of the vibration piece along with the sound by using the handheld client device, identifies the two-dimensional code and sends the information to the server;

(2) The server analyzes the vibration amplitude image information of the vibration piece along with the sound according to the acquired two-dimensional code, compares the vibration amplitude image information with the image information acquired in the step (1), and enters the step (3) if the vibration amplitude image information is consistent with the image information, if the vibration amplitude image information is inconsistent with the image information, the commodity is judged to be false, and the process is ended;

(3) The vibration sensor collects vibration condition information of the substrate along with sound and transmits the vibration condition information to the server in real time, whether the vibration condition information is completely consistent with the vibration condition information stored in the server is judged, if yes, the step (4) is started, otherwise, the commodity is judged to be false, and the process is ended;

(4) Matching the base vibration condition information acquired in the step (3) with corresponding vibration amplitude image information of the vibration piece, judging whether the base vibration condition information acquired again is matched with the vibration amplitude image information of the vibration piece when the fake verification is requested again, if yes, judging true, otherwise judging that the commodity is false, and ending;

the anti-counterfeiting system comprises an anti-counterfeiting characteristic unit and an anti-counterfeiting identification unit, wherein the main body of the anti-counterfeiting characteristic unit is a stainless steel substrate of a commodity, a vibrating piece sensitive to fine vibration and a vibration sensor for monitoring the vibration condition of the substrate are adhered to the substrate, and a two-dimensional code corresponding to the vibration piece along with the change information of the vibration amplitude of sound is printed on one side of the vibrating piece in an inkjet mode; the anti-counterfeiting recognition unit comprises handheld client equipment used for playing sound, collecting images of vibration amplitude changes of the vibration piece along with the sound and recognizing two-dimensional codes, and the vibration sensor and the handheld client equipment are respectively in wireless communication with the server;

the vibrating piece is a thin copper sheet with the thickness of 0.2-0.3 mm;

the handheld client device is a mobile phone;

the vibrating piece is adhered to the substrate through fragile paper, the vibrating piece and the substrate are fixed together in a fragile paper double-sided adhesion mode, and once the vibrating piece is pulled open, the fragile paper is damaged by naked eyes;

the bottom of the substrate is provided with a shell, an anti-magnetic interference device, a temperature control device, a positioning device, a position information memory, a warning device, a power supply and a charging device are arranged in the shell, and flexible materials are filled among the components;

the anti-counterfeiting system further comprises a fixing device and a self-destruction device, wherein the fixing device is used for realizing connection between the substrate and the commodity, and the self-destruction device is automatically started when the fixing device is displaced or damaged so as to cause at least one of the following results: the substrate is damaged by naked eyes of a human body; and/or sending anti-counterfeiting failure information to a server;

the manufacturing method of the anti-counterfeiting system comprises the following steps:

(A) The handheld client device plays the set sound clip, and the vibration sensor collects the vibration condition information of the base along with the sound and sends the vibration condition information to the server for storage;

(B) When the handheld client device plays the set sound fragment, the image information of the vibration amplitude of the vibration piece along with the sound is collected at the same time, the vibration amplitude is calculated by a server to generate a corresponding two-dimensional code, and the two-dimensional code is printed on one side of the vibration piece in an inkjet mode;

in the step (B), the two-dimensional code is generated by adopting a combination algorithm of an SM3 hash algorithm and one or more of the following algorithms: RC4 algorithm, and/or B-M algorithm, and/or MD5 algorithm, and/or A5 algorithm, and/or SEAL algorithm.