CN115689586A - Anti-cheating system and anti-cheating method for foot ring of randomly-looking racing pigeon - Google Patents

Abstract

The invention relates to an anti-cheating system and an anti-cheating method for preventing identity counterfeiting of a racing pigeon. The appearance characteristics of the foot ring of the racing pigeon are captured, and the identity information of the racing pigeon is established. When the racing pigeon participates in the race, the appearance characteristics of the foot ring of the racing pigeon are captured and become the checking data of the racing pigeon. Comparing the identity data with the verification data to verify whether the racing pigeon is true or not.

Description

Anti-cheating system and anti-cheating method for foot ring of randomly-looking racing pigeon

Technical Field

The present invention relates to a technique for preventing counterfeit racing pigeons, and more particularly, to a system and method for preventing cheating of a racing pigeon foot ring with random appearance.

Background

The racing pigeon sports is a competition held all over the world, and each racing pigeon is provided with a foot ring for verifying the identity of the racing pigeon. The pigeon ring of the racing pigeon can be used for identification, and the anti-counterfeiting property of the pigeon ring is more important so as to prevent the pigeon ring from being faked and influence the fairness of the racing pigeon competition. The identification method commonly used today is to install a chip in the pigeon loop and read the information stored in the chip by a reader to identify the identity of the racing pigeon.

Although a certain anti-counterfeiting effect can be achieved by arranging the chip in the pigeon loop, the chip still has the defects, and if the anti-counterfeiting mechanism of the chip is not good, the chip still has the possibility of being cracked; and the chip identification is an anti-counterfeiting measure, so that the anti-counterfeiting effect of the pigeon racing foot ring is enhanced.

Disclosure of Invention

The invention aims to solve the technical problems and provides a system and a method for strengthening the anti-counterfeiting function of a foot ring of a racing pigeon and matching the anti-counterfeiting technology of the foot ring as an anti-cheating system and an anti-cheating method for racing pigeon.

The invention provides a cheat prevention system for a foot ring of a randomly-looking racing pigeon, which comprises the following steps:

the appearance characteristics of the racing pigeon foot ring are provided with randomly formed point-shaped grains, and the point-shaped grains are formed by randomly distributing particles outside the racing pigeon foot ring in a point shape; the point-like lines of different racing pigeon foot rings are different;

the racing pigeon foot ring has at least one identification data; and

a verification system, including an image capturing unit, a storage unit and a comparison unit;

the image capturing unit captures the appearance characteristics of the racing pigeon foot ring, wherein the appearance characteristics comprise the randomly formed dot-shaped grains;

the storage unit stores the identification data of the racing pigeon foot ring and the appearance characteristics captured by the image capturing unit, and forms the identity information of the racing pigeon and the checking data when the racing pigeon participates in the race;

the comparison unit compares the basic information of the racing pigeon with the check data to verify the identity of the racing pigeon.

Preferably, the racing pigeon foot ring is further provided with a specific mark; the appearance characteristics captured by the image capturing unit comprise the specific mark; the identity information and the verification data include the specific mark for the comparison unit to compare.

Preferably, the racing pigeon foot ring is further provided with a specific mark; the specific mark and the dot-shaped lines are matched to form the identification characteristic for identifying the racing pigeon foot ring.

Preferably, the particles are of one color or a plurality of colors or colors with contrast between particles.

Preferably, in the above technical solution, the dot-shaped lines are randomly distributed particles, and the color of the particles is different from the color of the foot ring of the racing pigeon.

Preferably, the identification characteristics of the randomly distributed particles are selected from at least one or more of the following factors: the number of the particles, the distribution position of the particles, the size relationship of the particles, the relative position between the particles, the distance between the particles, the connection line between the particles and the pattern formed by a plurality of particle points.

Preferably, as the technical solution, the random distribution of the random particles around the specific mark or the distance between the random particles and the specific mark is used as the identification feature.

Preferably, the surface of the pigeon ring has a typeface or the pigeon ring is provided with at least one identification chip; the identification data is the information presented by the typeface or the information stored by the identification chip.

As a preferred aspect of the above technical solution, preferably, the image capturing unit is connected to an operation program, which can adjust or screen the definition of the captured image and define the range of the appearance features for comparison.

Preferably, the comparing unit compares the brightness, color, saturation or contrast of the image.

The invention provides a cheat-preventing method for a random-appearance racing pigeon foot ring, which comprises the following steps:

A. preparing a racing pigeon foot ring, wherein the appearance characteristics of the racing pigeon foot ring are provided with randomly formed point-shaped grains, and the point-shaped grains are formed by randomly distributing particles in a point shape; the random dot-shaped lines of different racing pigeon foot rings are different; the racing pigeon foot ring is also provided with identification data;

B. capturing the image of the appearance characteristic of the foot ring of the racing pigeon by an image capturing unit, and establishing the identity information of the pigeon book data of the racing pigeon together with the identification data of the foot ring of the racing pigeon;

C. capturing the image of the appearance characteristics of the racing pigeon foot ring of the racing pigeon by an image capturing unit, and forming checking data with the identification data of the racing pigeon foot ring; and

D. comparing the identity information with the verification data to check the identity of the racing pigeons.

The appearance characteristics formed by the randomly formed dot-shaped grains of the pigeon racing foot ring are unique and cannot be forged or replaced, and the appearance characteristics and the identification data form an anti-counterfeiting mechanism which cannot be cracked or counterfeited, so that the anti-cheating system and the anti-cheating method can really verify the authenticity of the pigeon racing, and the pigeon racing after being verified to be authentic can initially race.

In one embodiment of the present invention, the racing pigeon foot ring is further provided with a specific mark; the extracted appearance characteristics of the pigeon rings comprise the specific mark; the identity information and the verification data include the specific mark for comparison.

In one embodiment of the present invention, the specific mark and the dot-shaped pattern are combined to form an identification feature for identifying the pigeon racing foot ring.

In one embodiment of the invention, the particles are of a single color or a plurality of colors or colors having contrast between particles.

In one embodiment of the present invention, the color of the particles is different from the color of the racing pigeon foot ring itself.

In one embodiment of the present invention, the identification characteristic of the randomly distributed particles is selected from at least one or more of the following options: the number of the particles, the distribution positions of the particles, the relative positions among the particles, the distances among the particles, the connecting lines among the particles and a pattern formed among a plurality of particle points.

In one embodiment of the present invention, the random distribution of the random particles around the specific mark or the distance between the random particles and the specific mark is used as the identification feature.

In one embodiment of the present invention, the surface of the pigeon ring has a character or the pigeon ring is provided with at least one identification chip, and the identification data is information presented by the character or information stored in the identification chip.

In an embodiment of the present invention, the image capturing unit is connected to an operation program, which can adjust or filter the definition of the captured image and define the range of the appearance features for comparison.

In an embodiment of the invention, the comparison unit compares the apparent brightness, color, saturation or contrast of the image.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, a brief description will be given below of the drawings required for the embodiments or the technical solutions in the prior art, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a diagram illustrating an architecture of a verification system according to a preferred embodiment of the present invention.

FIG. 2 is a perspective view of an embodiment of the racing pigeon foot ring of the present invention.

FIG. 3 is a schematic side view of a pigeon racing foot ring according to a preferred embodiment of the present invention, and shows a schematic view of capturing dot-shaped patterns in the pigeon racing ring recognition area by an image capturing apparatus.

FIG. 4 is a side view of another pigeon loft according to a preferred embodiment of the invention and shows another randomly distributed pattern of particles and different sized identification areas.

FIG. 5 is a schematic view showing the operation of establishing the identity information of a pigeon racing book by using the foot ring of the present invention.

FIG. 6 is a schematic view showing the operation of creating the verification data when the racing pigeon participates in the race.

FIG. 7 is a schematic diagram showing the comparison between the identification data and the verification data of the racing pigeon.

Wherein 10 the system is verified; 12 an image capturing unit; 13 a camera; 14 a storage unit; 16 an alignment unit; 20 racing pigeon foot rings; 22 holes; 24 identification data; 241 characters; 25 identifying the area; 26 identifying the chip; 28 a specific mark; a P side surface; 30 point-shaped lines; 32 random particles; a distance D; l is connected; g, graph; 40 racing pigeons; 50 identity information; 52 random appearance recognition feature images; 55 checking the data; 56 random appearance identification characteristic image; 60 a reader.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

The present invention provides a foot ring of racing pigeon with innovative identification characteristics, and an anti-cheating system and an anti-cheating method applied to racing pigeon by using the anti-counterfeiting technology on the appearance of the foot ring of racing pigeon. The anti-cheating system provided by the invention comprises a verification system 10 shown in fig. 1 and a racing pigeon foot ring (hereinafter referred to as foot ring) 20 shown in fig. 2.

The verification system 10 includes: an image capturing unit 12, a storage unit 14 and a comparison unit 16. The present invention uses the image capturing unit 12 to obtain the random appearance recognition feature image of the racing pigeon foot ring 20 and establish the identity information of the racing pigeon book of a racing pigeon. When the racing pigeon participates in the race, the random appearance identification characteristic image of the foot ring of the racing pigeon is captured again to form comparison data, and the identity information and the comparison data are compared to verify whether the racing pigeon is true or not.

An important technical feature of the present invention is to provide a pigeon racing foot ring 20 with an innovative anti-counterfeit measure, as shown in fig. 2, the foot ring 20 has a randomly formed dot-shaped grain 30 on the appearance to become an identification feature on the appearance of the foot ring 20, and the random dot-shaped grain 30 is formed by randomly distributed particles 32 on the surface of the foot ring 20.

The foot ring 20 is worn on the foot of the racing pigeon 40, as shown in fig. 5, to identify the identity of the racing pigeon. The racing pigeon foot ring 20 has a hole 22 at the center for allowing the pigeon foot to pass through. The present invention can be applied to the foot ring of the racing pigeon in various shapes or styles, and the style of the foot ring of the racing pigeon is not limited by the drawings of the present invention.

The racing pigeon foot ring 20 of the invention is made by plastic injection, the point-shaped lines 30 are randomly formed in the injection and molding manufacturing process and are exposed on the outer surface of the finished product of the racing pigeon foot ring 20, and because the point-shaped lines 30 are randomly formed, the point-shaped lines 30 of each racing pigeon foot ring are unique, and the point-shaped lines 30 of different racing pigeon foot rings are different.

The pigeon ring 20 is formed by injection molding of plastic, and the particles are added into a material tube of the injection molding machine to be mixed with the plastic to form a composite plastic, and the composite plastic is stirred and fully mixed to ensure that the particles are randomly distributed in the composite plastic. The composite plastic mixed with the particles is injected into a mold to form the pigeon ring, the particles 32 are randomly formed and exposed on the surface of the finished product of the pigeon ring 20, and the random distribution of the particles 32 is the dot-shaped grains 30. The ratio of particles 32 in the plastic may be adjusted as desired.

The particles 32 can be granular or powdery substances, the size of the particles 32 is preferably 0.01 mm-0.3 mm, and the particles can be seen by eyes, but the particles are not limited to the above size; the selected particles 32 may be polymeric or non-polymeric. In addition, the present invention may use different colored particles 32 to make the pigeon rings, the particles 32 may be the same color or different colors from the plastic used to make the pigeon rings 20, and when different colors are selected, the particles 32 may be different colors from the pigeon rings 20 themselves. When the material of the particles 32 is different from the plastic, the particles 32 are visible on the surface of the resulting pigeon loop 20 even if the particles and the plastic are the same color. The pigeon ring 20 shown in fig. 3 uses metal-colored powder as the particles 32, and when the particles 32 are gold-colored or silver-colored, the particles have light-reflecting property, and the particles and the plastic have different colors, so as to form contrast and be easy to be seen. The differently colored particles 32 may have one or more contrasting colors therebetween.

Since the particles 32 are randomly distributed in the plastic and the injection conditions of the plastic at each injection are slightly different, the particles 32 are randomly distributed on the surface of the pigeon loft 20, and the random distribution of the particles 32 on each part of the surface of each pigeon loft 20 is also different. In addition, the particles 32 may not protrude from the surface of the pigeon ring 20, or protrude from the surface of the pigeon ring.

The random distribution of the particles 32 in the dot pattern on the surface of each pigeon loft 20 varies, including the number of random particles 32, the position of the random particles, and the density of the random particle distribution, such that the random distribution of the particles 32 on the surface of each pigeon loft 20 is unique. The distribution of particles 32 varies from one pigeon's loop 20 to another, for example, the random distribution of particles 32 on the surface of pigeon's loops 20 in fig. 3 and 4. The randomly distributed particles 32 on the surface of each pigeon loop 20 form a randomly formed dot-like texture 30 of the pigeon loop 20.

In one embodiment, at least two different color particles can be mixed into the plastic to make the outer surface of the manufactured pigeon ring display a plurality of color particles, and the random distribution of the different color particles at different positions can also be used as an identification feature of the dot-shaped grain 30.

In addition to the dot-shaped patterns 30, the pigeon loft is also provided with identification data, and the identification data 24 may be information presented by a character 241 manufactured on the surface of the pigeon loft 20 as shown in fig. 2, or information stored in the identification chip 26 mounted on the pigeon loft 20. The information may be serial numbers or various data or information, and may be, for example, numbers, words (various recognizable words, such as English letters), symbols, or a combination of numbers and words, or a combination of numbers and symbols. The identification chip 26 may be a radio frequency chip or a contact chip, and the identification chip has specific data or information and stores information related to the pigeon, and can be read by a reading device.

Fig. 3 shows a side view of a pigeon loop 20 and a random dot-like texture 30 formed on the outer surface of the pigeon loop 20, wherein the distribution of particles 32 on the outer surface of the pigeon loop 20 is different, so that a specific location can be selected as the identification region 25, for example, as shown in fig. 3, a specific range of a side surface P of the pigeon loop 20 is selected as the identification region 25, and the random texture 30 in the identification region 25 is used as a basis for identifying the pigeon loop. The size of the identification area 25 can be set or adjusted according to actual needs, and fig. 4 shows different sizes of the identification area 25.

In order to provide each pigeon loop with a consistent identification area, one possible embodiment is to place the pigeon loop 20 in a jig (not shown) so that the pigeon loop is held in a specific orientation and the side P of the pigeon loop faces outward, so that the identification area 25 can be specified so that the identification area 25 of each pigeon loop is located at the same position. The range of the recognition area 25 in the drawings is only an example, and the area or range of the recognition area 25 can be increased or decreased as required, for example, the recognition area 25 can be the whole range of the side surface P or a partial range of the side surface P.

Referring to fig. 3, the image capturing device of the image capturing unit 12, such as the camera 13, is used to pick or capture the random particles 32 in the identification area 25 of a pigeon loop 20, and the features of the identification area 25 are selected or captured by software or artificial intelligence, and converted into electronic information, such as digital photos, and the identification features of the dot-shaped grains 30 in the identification area 25 of each pigeon loop 20 are recorded and stored. For example, all the randomly distributed particles 32 in the identification region 25 may be used as the identification feature of the dot-shaped patterns 30, and the number, position, distance, and even the size relationship of each particle 32 or the size relationship between the particles in the identification region 25 may form a unique identification feature. For example, the number of randomly distributed particles 32, the position of the particles 32, the relative position between the particles 32, the distance between the particles 32, the connection line L between at least two particles 32, the inclination angle and length of the connection line L, or the pattern G formed between a plurality of random particles 32 are used to form a unique identification feature belonging to the appearance of the pigeon loft 20, and then recorded and stored. The identification characteristics can be used for judging the truth of the pigeon ring and verifying the identity of the pigeon

Referring to fig. 2 and 3, in another embodiment of the present invention, a specific mark (mark for short) 28 is further disposed on the surface of the pigeon loop 20, and is located in the identification area 25, and the mark 28 can be a convex or concave portion formed on the pigeon loop 20 by injection molding, or other marks that can be used as a reference point. The mark 28 may serve as an identifying feature for identifying the pigeon loft 20. In addition, the specific mark may be matched with the dot-shaped grain 30 to serve as an identification feature of the pigeon hoop, for example, the mark 28 is used as a reference point or a reference position to determine the distribution of the random particles 32 around the mark 28, or various factors such as the connection length and the connection angle between the random particles and the mark 28 can be used as the identification feature of the pigeon hoop 20; or measuring the distance D between a single or multiple random particles 32 at a particular location and the mark 28, can be another identifying feature of a pigeon loft. For example, the distance of the plurality of random particles 32 constituting the pattern G from the mark 28, and the length and the inclination angle of the line connecting the random particles 32 and the mark 28.

The pattern of the randomly distributed identification features of the particles 32 of the dot-shaped pattern 30 may be set in software. The identification features illustrated herein are exemplary only, and not limiting.

The identification characteristics of the dot-shaped grains 30 of each pigeon ring manufactured by the invention are randomly formed, the number and the positions of the particles 32 are randomly formed and randomly distributed, and the dot-shaped grains formed by the particles 32 are different in appearance formed by each pigeon ring, so that the same pigeon ring is difficult to reproduce, and excellent anti-cheating effect is provided.

Furthermore, the identification data 24 (character 241 or identification chip 26) of each pigeon ring has unique and unique information, such as serial number, and the identification data 24 and the dot-shaped texture 30 are bound into an unbreakable anti-cheating data as an anti-cheating mechanism for each pigeon ring. The anti-cheating data bound by the identification data 24 and the dot-shaped grain 30 becomes the identification data of the pigeon ring and cannot be cracked.

The following describes the anti-cheating method provided by the present invention, which comprises setting up the verification system 10 of FIG. 1 and comparing the random appearance characteristics on the foot ring 20 of the racing pigeon to verify the authenticity of the racing pigeon. The anti-cheating method comprises the following steps.

Step A, preparing the racing pigeon foot ring 20 with the appearance characteristics having the random dot-shaped lines 30 for being worn on different racing pigeons.

The racing pigeon foot ring 20 is shown in figure 2. The foot ring 20 has randomly formed dot-shaped grains 30, and the identification features of the dot-shaped grains 30 include unique identification features formed by the number of particles 34 formed by randomly distributed particles 34, the positions of the particles 34, the relative positions between the particles 34, the distances between the particles 34, the connecting lines L between the particles 34, the inclination angles and lengths of the connecting lines L, the patterns G formed between the particles 34, and the like, and identification features formed by the specific mark 28 itself, or the connecting lines or the distances between the mark 28 and the specific particles 32, and the like, as shown in fig. 3.

In addition, each racing pigeon foot ring 20 also has the aforementioned identification data 24, the identification data 24 having a serial number, and different pigeon rings having different serial numbers.

Step B, implementing the step of establishing pigeon data, using the image capturing unit 12 to capture the image of the appearance characteristics (random dot pattern) on the racing pigeon foot ring 20, and establishing the identity information of the racing pigeon with the identification data of the foot ring.

Establishing pigeon book data for the racing pigeons wearing the foot rings, as shown in fig. 5, shooting and capturing the random dot-shaped grains 30 on the surface of the foot ring 20 by the camera 13 of the image capturing unit 12 of the racing pigeons foot ring 20 to form a random appearance identification characteristic image 52 with random appearance characteristics, wherein the image 52 is digitized, electronized and stored in the storage unit 14 for comparison in the following steps.

The appearance of the foot ring 20 for comparison may be the entire image 52 captured by the image capturing unit 12 (the image 52 has the dot-like texture 30), or some identification features included in the image 52, such as the identification features of fig. 3 described above.

When capturing the random dot patterns 30 of the foot ring 20, the image capturing unit 12 may be connected to a manual operation program or an intelligent operation program for setting, adjusting or screening the definition of the image (photo) and defining the range of the random appearance features for comparison.

The serial number of the identification data 24 of the racing pigeon foot ring 20 is obtained by a visual or reader 60 (as described above), and the serial number of the identification data 24 and the random appearance identification feature image 52 are combined into an identification information 50 and stored in the storage unit 14. The identification characteristics of the random dot-shaped grains 30 of each foot ring 20 are different, so that the foot ring cannot be forged; the serial number of the identification data 24 of each foot ring is also a dedicated number or serial number, so that the random appearance identification feature is bound with the serial number of the identification data 24 to form the identity information 50 which cannot be forged. Therefore, each racing pigeon establishes the exclusive and unforgeable identity information 50 to become the pigeon nationality data of the racing pigeon.

In addition, in the process of capturing the image 52, the image data such as the brightness, color, saturation, contrast, etc. captured within the image capturing range (e.g. the range of the recognition area 25) can be used to compare the features of the foot ring 20.

Furthermore, when the image capturing unit 12 captures or captures the image 52 of the foot ring 20, the specific mark 28 is also within the capturing range of the image, so that the specific mark 28 becomes a comparison feature.

Step C, when the racing pigeon participates in the race, the image capturing unit captures the image of the appearance characteristics of the foot ring 20 of the racing pigeon which is registered in the race, and forms a check data with the identification data 24 of the foot ring.

When the racing pigeon participates in the competition, the identity of the racing pigeon needs to be checked. As shown in fig. 6, the camera 13 of the image capturing unit 12 captures and captures the random dot patterns 30 on the surface of the foot ring 20 of the racing pigeon to form a random appearance recognition feature image 56 with appearance features, and the image 56 is digitized, electronically processed and stored. Similarly, the range of images 56 captured or captured includes where the specific mark 28 is located.

The serial number of the identification data 24 of the foot ring 20 of the racing pigeon is obtained by a visual or reader 60, and the serial number of the identification data 24 and the random appearance identification feature image 56 are combined into a check data 55 as a data for checking the identity of the racing pigeon and stored in the storage unit 14.

In the process of capturing the image 56, the image data of brightness, color, saturation, contrast, etc. captured within the image capturing range can also be used as the data for comparison and verification.

Step D, comparing the identity information 50 with the verification data 55 to check the identity of the racing pigeon.

After obtaining the checking data 55 of the racing pigeon, the identity of the racing pigeon is checked, and the random appearance identification feature and the serial number of the identification data 24 in the images 52 and 56 of the identity information 50 and the checking data 55 are compared to verify whether the racing pigeon conforms to the identity in the pigeon data.

5. The pigeon racing which is verified as true obtains the qualification of racing.

Referring to fig. 7, the comparing unit 16 is used to verify the identity information 50 and the check data 55, and if they match, the racing pigeon is verified as true, and the racing qualification can be obtained. Otherwise, if the comparison shows that the two are not matched, the result is verified to be negative, and the racing pigeon cannot participate in the competition. The comparison includes comparing whether the features formed by the specific mark 28 are consistent, in addition to the identification features and identification data 24 of the random dot patterns 30.

The comparison unit 16 may include an image comparison program, which compares the random appearance recognition features of the images 52 and 56, and compares the brightness, contrast, color saturation, etc. of the images to improve the comparison accuracy.

If the racing pigeon competition adopts multiple-stage competition, such as qualification competition, single-stage competition and multiple-stage competition, the pigeon competition of each stage needs to perform the verification procedures of the step C and the step D to verify whether the racing pigeon is true or not and whether the racing pigeon can be played or not.

Because the identity information of the invention is difficult to forge, the pigeon racing which is verified to be true is determined to be the true pigeon racing in the pigeon data.

The present invention has the racing pigeon foot ring with unforgeable appearance, the random identification characteristics on the appearance of the foot ring are bound with the identification data thereof to form an identity anti-cheating mechanism which can not be cracked, and the anti-cheating system and the anti-cheating method which are applied by the anti-cheating mechanism can effectively stop the identity of the racing pigeon from being faked and cheated.

The random particles 32 of the present invention are suitable for use in the present invention as a structural component that can be embodied, determined and judged, and can produce an anti-counterfeiting effect.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and these modifications or substitutions do not depart from the spirit of the corresponding technical solutions of the embodiments of the present invention.

Claims (20)

1. An anti-cheating system for a randomly-appearing racing pigeon foot ring, comprising:

the appearance of the racing pigeon foot ring is provided with randomly formed point-shaped grains, and the point-shaped grains are formed by randomly distributing particles on the surface of the foot ring in a point shape; the random distribution of the particles of different racing pigeon foot rings is different;

the racing pigeon foot ring has at least one piece of identification data, and the identification data of different racing pigeon foot rings are different; and

the verification system comprises an image acquisition unit, a storage unit and a comparison unit;

the image capturing unit captures the appearance characteristics of the racing pigeon foot ring, wherein the appearance characteristics comprise the randomly formed dot-shaped grains;

the storage unit stores the identification data of the racing pigeon foot ring and the appearance characteristics captured by the image capturing unit, and forms the identity information of the racing pigeon and the checking data when the racing pigeon participates in the race;

the comparison unit compares the basic information of the racing pigeon with the check data to verify the identity of the racing pigeon.

2. The anti-fraud system of claim 1, wherein the pigeon racing footring is further provided with a specific mark; the appearance characteristics captured by the image capturing unit comprise the specific mark; the identity information and the verification data include the specific mark for the verification unit to verify.

3. The anti-fraud system of claim 1, wherein the pigeon racing footring is further provided with a specific mark; the specific mark and the dot-shaped lines are matched to form an identification characteristic for identifying the racing pigeon foot ring.

4. The anti-fraud system according to claim 1, characterized in that said granules are one color or a plurality of colors or colors with contrast between granules.

5. The anti-fraud system according to claim 1, characterized in that said dot-like textures are randomly distributed particles having a color different from the color of the racing pigeon foot ring itself.

6. The anti-fraud system according to claim 1, 4 or 5, characterized in that said identification characteristics of randomly distributed particles are selected from at least one or more of the following factors: the number of the particles, the distribution position of the particles, the size relationship of the particles, the relative position between the particles, the distance between the particles, the connection line between the particles and the pattern formed by a plurality of particle points.

7. The anti-fraud system according to claim 3, characterized in that the random distribution of said random particles around the specific mark or the distance from the specific mark is used as said identification feature.

8. The anti-fraud system according to claim 1, characterized in that the surface of said pigeon ring has a typeface or said pigeon ring is provided with at least one identification chip; the identification data is the information presented by the typeface or the information stored by the identification chip.

9. The anti-fraud system of claim 1, wherein the image capturing unit is connected to an operating program that can adjust or screen the sharpness of the captured image, and define the range of appearance features for comparison.

10. The anti-fraud system of claim 1, wherein the comparison unit comprises comparing apparent brightness, color, saturation, or contrast of the image.

11. A method for preventing cheating of a foot ring of a randomly-looking racing pigeon is characterized by comprising the following steps:

A. preparing a racing pigeon foot ring, wherein the appearance characteristics of the racing pigeon foot ring are provided with randomly formed point-shaped grains, and the point-shaped grains are formed by randomly distributing particles in a point shape; the random dot-shaped lines of different racing pigeon foot rings are different; the racing pigeon foot ring is provided with at least one piece of identification data;

B. capturing the image of the appearance characteristics of the racing pigeon foot ring by an image capturing unit, and establishing the identity information of the racing pigeon together with the identification data of the racing pigeon foot ring;

C. capturing the image of the appearance characteristics of the racing pigeon foot ring of the racing pigeon by an image capturing unit, and forming checking data with the identification data of the racing pigeon foot ring; and

D. comparing the identity information with the verification data to check the identity of the racing pigeons.

12. The anti-cheating method of claim 11, wherein said racing pigeon foot ring is further provided with a specific mark; the appearance characteristics extracted in the step C and the step D comprise extracting the specific mark; the identification information and the verification data include the specific mark for comparison.

13. The anti-cheating method of claim 11, wherein said racing pigeon foot ring is further provided with a specific mark; the specific mark and the dot-shaped lines are matched to form an identification characteristic for identifying the racing pigeon foot ring.

14. A method according to claim 11, characterized in that said granules are of one colour or a plurality of colours or contrasting colours.

15. The anti-fraud method according to claim 11, characterized in that said granules have a color different from the color of the racing pigeon foot ring.

16. A fraud prevention method according to claim 11, 14 or 15, characterized in that said identification characteristics of randomly distributed particles are selected from at least one or more of the following factors: the number of the particles, the distribution positions of the particles, the size relationship of the particles, the relative positions among the particles, the distance among the particles, the connecting line among the particles and a graph formed among a plurality of particle points.

17. The anti-fraud method according to claim 13, characterized in that the random distribution of the random particles around the specific mark or the distance from the specific mark is used as the identification feature.

18. The anti-fraud method of claim 11, wherein the surface of the pigeon ring has a typeface or the pigeon ring is provided with at least one identification chip; the identification data is the information presented by the typeface or the information stored by the identification chip.

19. The anti-cheating method of claim 11, wherein the capturing of the images of the appearance characteristics of the racing pigeon foot ring in steps B and C further comprises an operation procedure for adjusting or screening the definition of the captured images and defining the range of the appearance characteristics for comparison.

20. The anti-fraud method of claim 11, wherein step D comprises comparing the apparent brightness, color, saturation, or contrast of the image.

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