JP7119799B2 - Authenticity judgment system - Google Patents

Description

The present invention relates to an authenticity determination system using information codes.

Currently, there is a demand for a system that can accurately determine the authenticity of high-priced products and genuine products with simple work. An authenticity determination system that uses this has been realized. However, a general information code has a problem that it is easy to duplicate because predetermined information is recorded by arranging light-colored cells and dark-colored cells in a one-dimensional or two-dimensional manner. .

For example, the information code disclosed in Japanese Patent Application Laid-Open No. 2002-200002 is known as a technology related to authenticity determination using an information code that is difficult to duplicate and that is attached to a product or the like to solve such a problem. This information code is a predetermined area in the code area, and a specific area where the information code cannot be deciphered by being shielded from light transmits infrared light and becomes dark when visible light is irradiated. It is configured to be covered by a coating exhibiting reflective properties. As a result, the information code decoded based on the second code image captured with the infrared light, and the specific region of the first code image captured with the visible light illuminated is dark. On the other hand, an information code that cannot be decoded even by the second code image is determined as an information code different from the regular information code.

JP 2014-002661 A

By the way, when using the information code having the covering portion as described above, a dedicated reading device having an infrared light irradiation function is required. For this reason, a general reading device, such as a smartphone, which has a visible light irradiation function (for example, LED) but does not have an infrared light irradiation function, such as a smartphone, uses the information code to verify authenticity. There is a problem that judgment cannot be made.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems. An object of the present invention is to provide a configuration capable of authenticity determination.

In order to achieve the above object, the invention described in claim 1 of the scope of claims includes:
an information code (10, 10a) attached to the object of authenticity determination (G);
an authenticity determination device (20) for performing an authenticity determination regarding the authenticity determination target using a reading result obtained by imaging and reading the information code;
An authenticity determination system (1) comprising
The information code includes a specific pattern area in which a specific pattern (12) having a predetermined shape is arranged inside a code area (11) configured by arranging a plurality of light-colored cells and dark-colored cells; an information recording area in which predetermined information is recorded by a plurality of light-colored cells and dark-colored cells;
The object to be authenticated has a retroreflective part (3, 3a to 3c) positioned outside the code region within the same imaging range when the information code is imaged by the authentication device. Arranged in a predetermined shape,
The retroreflector is configured to be able to retroreflect incident light, and the retroreflector is not irradiated with light, or the retroreflector receives light from a direction different from the imaging direction. is irradiated, the reflected light from the retroreflector is not reflected in the imaging direction, so that it cannot be imaged in a clear state,
The authentication device is
an imaging unit (33) for imaging the information code;
an irradiation unit (34) that irradiates the imaging range of the imaging unit with illumination light such that the optical axis is along the imaging direction;
a decoding unit (31) for decoding the information code imaged by the imaging unit;
a determination unit (31) for determining the authenticity of the object to be determined, which is imaged by the imaging unit and to which the information code is attached;
with
The determination unit determines a first captured image captured by the imaging unit without being irradiated with the illumination light and a second captured image captured by the irradiation unit while the illumination light is being irradiated for the same information code. If the information decoded by the decoding unit from the first captured image matches the information decoded by the decoding unit from the second captured image based on the first captured image based on the information code A difference between the image and the second captured image is obtained, and authenticity determination is performed according to a comparison result between the difference and the predetermined shape.

In the first aspect of the present invention, the object to be authenticated has a retroreflector with a predetermined shape so that the information code is located outside the code area within the same imaging range when the information code is imaged by the authenticity determination device. are placed. Then, in the determination unit, the same information code is captured based on the first captured image captured by the imaging unit without being irradiated with illumination light and the second captured image captured by the illumination unit being irradiated with illumination light. and the difference between the first captured image and the second captured image based on the information code when the information decoded from the first captured image by the decoding unit matches the information decoded from the second captured image by the decoding unit. is obtained, and authenticity determination is performed according to the result of comparison between the difference and the predetermined shape.

As a result, when capturing an image of the information code attached to the genuine article to be determined for authenticity, the retroreflecting portion irradiated with the illumination light is clearly reflected in the second captured image, and Since the imaging section is held over the information code, light from the imaging section side that is reflected toward the imaging section does not irradiate the retroreflective section, so the retroreflective section is difficult to be clearly reflected. That is, when the difference between the first captured image and the second captured image based on the information code is obtained as the predetermined shape, the information code attached to the genuine article to be determined for authenticity is captured. can be determined. On the other hand, when the information code attached to the genuine product is duplicated by a copier or the like, the retroreflecting portion is irradiated with light, so the portion corresponding to the retroreflecting portion is replaced with a normal product. Replicated as a display state showing reflection. Therefore, when the duplicated information code is captured, even if the information decoded from the first captured image and the information decoded from the second captured image match, the first captured image based on the information code Since there is no substantial difference between the image and the second captured image, it can be determined that the duplicated information code is captured. Therefore, it suffices to irradiate the retroreflector with illumination light so that the reflected light from the retroreflector is directed toward the imaging unit. Authenticity can be determined using possible information codes.

In the second aspect of the invention, the retroreflective portion is formed as another information code in which information associated with the information recorded in the information code is recorded as the predetermined shape. As a result, since it is not determined that the information code attached to the genuine product is imaged simply by the occurrence of a difference between the first captured image and the second captured image, the accuracy of determination regarding authenticity determination is improved. be able to. In particular, by using information recorded in another information code configured as a retroreflector, it is possible to increase the amount of information that can be used at the time of authenticity determination, and to further improve the accuracy of authenticity determination. can be done.

1 is an explanatory diagram schematically showing the configuration of an authenticity determination system according to a first embodiment; FIG. 2 is a block diagram schematically showing an electrical configuration of the mobile terminal of FIG. 1; FIG. FIG. 4 is an explanatory diagram for explaining the positional relationship between an imaging port of an imaging unit and an irradiation port of an irradiation unit that are arranged on the surface side of a housing; 4 is a flowchart illustrating the flow of authenticity determination processing executed by the mobile terminal in the first embodiment; FIG. 5A is an explanatory diagram for explaining the first captured image in the first embodiment, and FIG. 5B is an explanatory diagram for explaining the second captured image. It is explanatory drawing explaining the principal part of the authenticity determination system which concerns on 2nd Embodiment, FIG. 6(A) shows a 1st captured image, FIG. 6(B) shows a 2nd captured image. 7A and 7B are explanatory diagrams for explaining essential parts of an authenticity determination system according to a third embodiment, FIG. 7A showing a first captured image and FIG. 7B showing a second captured image; 8A and 8B are explanatory diagrams for explaining essential parts of an authenticity determination system according to a fourth embodiment, FIG. 8A showing a first captured image and FIG. 8B showing a second captured image; FIG. 16 is a flowchart illustrating the flow of authenticity determination processing executed by a mobile terminal in the fourth embodiment; FIG. FIG. 10A is an explanatory diagram for explaining the first captured image in the modified example of the first embodiment, and FIG. 10B is an explanatory diagram for explaining the second captured image.

[First embodiment]
Hereinafter, a first embodiment embodying an authenticity determination system according to the present invention will be described with reference to the drawings.
The authenticity determination system 1 according to the present embodiment is a system for performing authenticity determination regarding an authenticity determination target using a reading result obtained by imaging and reading an information code that is difficult to copy attached to the authentication determination target. More specifically, as shown in FIG. 1, the authenticity determination system 1 assigns an information code 10 and an information code 10 to an expensive product or the like (hereinafter simply referred to as product G) that is subject to authenticity determination and requires countermeasures against counterfeits. A label 2 on which secret information 3 to be described later is printed is attached, and the information code 10 of the label 2 and the secret information 3 are imaged and read by a portable terminal 20 functioning as an authenticity judgment device, thereby obtaining a product G (authenticity judgment object) is configured as a system for authenticity determination.

The information code 10 according to the present embodiment is a rectangular (for example, square or rectangular) code formed by arranging a plurality of light-colored cells and dark-colored cells by using a predetermined encoding technique. An empty area 13 is provided in the center of the area 11 . Specifically, the information code 10 includes a specific pattern area in which a specific pattern having a predetermined shape (three position detection patterns 12, a timing pattern, an alignment pattern, etc.) is arranged, a plurality of bright color cells and dark color cells. A data recording area for recording record data by system cells, an error correction code recording area for recording an error correction code by a plurality of bright color cells and dark color cells, and an empty area 13 are provided. In the data recording area, information indicating that the information code 10 is an information code for authenticity determination, information for specifying the shape of the secret information 3 and the position with respect to the code area 11 (hereinafter simply referred to as information for authenticity determination) ), information about the product G to which the label 2 printed with the information code 10 is attached, and the like are recorded as at least part of the recording data.

The empty area 13 is larger than the size of a single cell and provided in the center of the code area 11 so as to be an area in which no data is recorded by cells and to be an area not subject to error correction using an error correction code. ing. As an encoding technique or the like for the information code 10 having the empty area 13 inside the code area 11 in this way, for example, the technique disclosed in Japanese Unexamined Patent Application Publication No. 2014-139771 can be preferably used.

Therefore, the record data recorded in the information code 10 can be read by using a reading device capable of decoding processing based on the decoding technology corresponding to the predetermined encoding technology. On the other hand, the recorded data recorded in the information code 10 cannot be read by a general reading device that cannot perform the decoding process based on the decoding technology described above.

The information code 10 generated in this way is printed on the label 2 using general ink or the like that can be imaged regardless of the ambient brightness. is printed as a retroreflective portion using retroreflective ink at the position of the label 2 corresponding to . The retroreflective ink is ink for retroreflecting incident light, and the secret information 3 is not irradiated with light, or is irradiated with light from a direction different from the imaging direction. In this state, the reflected light from the confidential information 3 is not reflected in the imaging direction, so that the confidential information 3 cannot be imaged clearly. In this embodiment, a star-shaped figure is printed as the secret information 3 using retroreflective ink in the empty area 13 of the label 2 attached to the product G to be authenticated. In example 1, the outer shape of the secret information 3, which cannot be captured because illumination light is not applied, is indicated by a dashed line.

Next, the configuration of the mobile terminal 20 that functions as an authenticity determination device will be described with reference to FIGS. 2 and 3. FIG.
The mobile terminal 20 is a terminal possessed by a user who desires authenticity determination processing using reading of the information code 10 or the like. It is configured by installing a predetermined application program for authenticity determination (hereinafter simply referred to as an authenticity application) distributed/provided by a company or the like. The mobile terminal 20 has an outline formed by a housing 21 formed in a substantially flat plate shape, and a display screen 35a of a touch panel 35 enlarged so as to have a narrow frame (narrow bezel) on the surface 22 side of the housing 21. are placed.

As shown in FIG. 2, the mobile terminal 20 is configured as a camera equipped with a light receiving sensor (for example, a C-MOS area sensor, a CCD area sensor, etc.). A control unit 31 for processing data is provided. The control unit 31 is composed mainly of a microcomputer, has a CPU, a system bus, an input/output interface, etc., and functions together with the storage unit 32 as an information processing device. The storage unit 32 is composed of a known semiconductor memory such as a ROM, a RAM, and a nonvolatile memory. Further, according to the installation of the authenticity application, a database for specifying the shape of the secret information 3 and the position with respect to the code area 11 from the read authenticity determination information as described later is built in advance in the storage unit 32 .

The portable terminal 20 also includes an irradiation unit 34 that irradiates illumination light toward the imaging range of the imaging unit 33. The irradiation unit 34 includes an LED and a lens or the like provided on the emission side of the LED. is configured to Since the irradiation unit 34 irradiates illumination light so that its optical axis is along the imaging direction of the imaging unit 33, as shown in FIG. It is arranged on the surface 22 side so as to be in the vicinity of the imaging aperture. Since the imaging unit 33 is arranged such that the imaging direction thereof is substantially orthogonal to the surface 22 , the optical axis of the illumination light of the irradiation unit 34 is substantially orthogonal to the surface 22 .

The mobile terminal 20 also includes a touch panel 35, an operation unit 36, a speaker 37, a vibrator 38, a communication unit 39, and the like. The touch panel 35 is configured as a known touch panel type display device, and includes a display unit configured as a known display device such as a liquid crystal display, and a display screen 35a of the display unit. A transparent operation panel that functions as a detection unit capable of detecting the range of pressing operation (contact) is provided. The control unit 31 controls the display contents of the display unit of the touch panel 35 . The operation unit 36 is configured to include the above-described operation panel and a plurality of keys provided on the side surface of the housing 21, etc., so that pressing operations (touch range, etc.) and key operations on the display screen 35a of the touch panel 35 can be performed. It is configured to output a corresponding signal to the control unit 31 . Also, the speaker 37 and the vibrator 38 are configured to be controlled by the control unit 31 , and operate in response to commands from the control unit 31 .

The communication section 39 is configured as an interface for performing data communication with an external device, and functions to perform communication processing in cooperation with the control section 31 . A power supply unit (not shown) is provided in the housing 21, and power is supplied to the control unit 31 and various electrical components from this power supply unit and a battery.

Next, in the authenticity determination system 1 configured as described above, the authenticity determination process performed by the mobile terminal 20 when performing the authenticity determination regarding the product G to which the label 2 on which the information code 10 etc. is printed is affixed is as follows: A detailed description will be given with reference to FIGS. 4 and 5. FIG.

When the authentication application is executed by the control unit 31 in response to a predetermined operation on the operation unit 36 to start the authentication determination process, first, the light-off process is performed in step S101 of FIG. A light-off state is entered in which the irradiation of the illumination light by is stopped. Subsequently, reading processing is performed in step S103, and processing for decoding (deciphering) the information code 10 based on the above-described decoding technique is performed on the captured image captured by the imaging unit 33 in the off state. Here, if the decoding of the information code fails (No in S105), the process from step S101 is performed again. Further, even if the decoding is successful (Yes in S105), the read result does not contain the information for authenticity determination, so if it is determined that the information code is not for authentication (No in S107), the above step S101. are processed again. It should be noted that the control unit 31 that performs the processing of step S103 and the processing of step S111 described later can correspond to an example of a "decoding unit".

On the other hand, when the information code 10 is imaged and successfully decoded (Yes in S105), the read result contains information for authenticity determination, so it is determined to be the information code for authenticity determination (S107). Yes). In this case, the lighting process of step S109 is performed, and a lighting state in which illumination light is emitted from the irradiation unit 34 is entered. Subsequently, reading processing is performed in step S111, and processing for decoding (decoding) the information code 10 based on the above-described decoding technique is performed on the captured image captured by the imaging unit 33 in the lighting state.

As described above, when the information code 10 imaged in the off state is successfully decoded, the same information code 10 is decoded because the processing for decoding the information code 10 imaged in the on state is immediately performed. , the decoded results match, and the decision processing in step S113 is YES.

Subsequently, image comparison processing in step S115 is performed, and the captured image in the off state captured in step S103 (hereinafter also referred to as the first captured image) and the captured image in the lit state captured in step S111. A difference from the image (hereinafter also referred to as a second captured image) is obtained with the information code 10 as a reference.

Here, when the information code 10 of the label 2 attached to the product G shown in FIG. As a result, the secret information 3 is not irradiated with light from the imaging section 33 that is reflected toward the imaging aperture of the imaging section 33 . Therefore, the reflected light from the confidential information 3 does not enter the imaging opening of the imaging unit 33, so that the first captured image is an image in which the confidential information 3 is not captured as shown in FIG. 5(A). On the other hand, in the lighting state, since the irradiation unit 34 irradiates the illumination light so that the optical axis is along the imaging direction of the imaging unit 33, the reflected light from the secret information 3 enters the imaging aperture of the imaging unit 33. Therefore, as shown in FIG. 5B, the second captured image is an image in which the secret information 3 is captured.

Therefore, since the difference between the first captured image and the second captured image based on the information code 10 is generated according to the confidential information 3, if the determination process in step S117 determines Yes, the Confidential information identification processing is performed, and the shape of the secret information 3 and the position with respect to the code area 11 are identified based on the database constructed in the storage unit 32 from the read information for authenticity determination.

Subsequently, in the determination processing of step S121, it is determined whether or not the confidential information 3 is read. Here, if the difference between the first captured image and the second captured image is considered to match the shape of the secret information 3 specified in the secret information specifying process and the position with respect to the code area 11, the secret information 3 is read, the determination processing in step S121 is determined to be Yes. In this case, in step S123, a genuine product display process is performed, and information indicating that the product G attached with the label 2 printed with the imaged information code 10 is a genuine product is displayed on the display screen 35a. When notified, the authenticity determination process ends. Note that the control unit 31 that performs the processes of steps S113 to S121 can correspond to an example of a "determination unit".

On the other hand, in the counterfeit label, which is a copy of the label 2 on which the information code 10 or the like is printed, since the secret information 3 is irradiated with light at the time of duplication, the portion corresponding to the secret information 3 is displayed in a normal reflection state. It will be copied with the same ink as the information code 10 so that. Therefore, when the information code or the like of the counterfeit label is imaged, even if the information decoded from the first captured image and the information decoded from the second captured image match, the first image based on the information code is detected. Since there is no substantial difference between the captured image and the second captured image, the determination processing in step S117 is determined as No. In this case, a warning display process is performed in step S125, and information is displayed on the display screen 35a to indicate that the product or the like attached with the label printed with the imaged information code 10 is not determined to be a genuine product. Then, the authenticity determination process ends. Further, when the information decoded from the first captured image and the information decoded from the second captured image do not match (No in S113), even if there is a difference, the shape and position of the difference may not match the secret information identifying process. (No in S121), the warning display process is performed assuming that the secret information 3 has not been read.

As described above, in the authenticity determination system 1 according to the present embodiment, the label 2 is used for the product G to be authenticated, and the information code 10 is captured in the same imaging range by the portable terminal 20. Confidential information 3 is arranged in a predetermined shape using retroreflective ink so as to be positioned inside. Then, in the authenticity determination process performed by the control unit 31, the first captured image of the same information code 10 captured by the imaging unit 33 in a state in which the illumination light is not irradiated and the state in which the illumination light is irradiated by the irradiation unit 34 If the information decoded from the first captured image and the information decoded from the second captured image match (Yes in S113), the information code 10 is used as the reference. A difference between the first captured image and the second captured image is obtained (S115), and authenticity determination is performed according to the comparison result between the difference and the predetermined shape.

As a result, when the information code 10 attached to the genuine article to be authenticated is captured, the secret information 3 irradiated with the illumination light is clearly reflected in the second captured image, and the secret information 3 is clearly reflected in the first captured image. Since the imaging part 33 is held over the information code 10, the light from the imaging part 33 side which is reflected toward the imaging part 33 is not irradiated to the secret information 3, so that the secret information 3 is hardly reflected clearly. That is, when the difference between the first captured image and the second captured image based on the information code 10 is obtained as the predetermined shape, the information code 10 affixed to the genuine product to be determined is captured. It can be determined that On the other hand, when the duplicated information code 10 is imaged, even if the information decoded from the first captured image and the information decoded from the second captured image match, the information code 10 is used as a reference. Since there is no substantial difference between the first captured image and the second captured image, it can be determined that the duplicated information code 10 is captured. Therefore, it is sufficient to irradiate the secret information 3 with illumination light so that the reflected light from the secret information 3 is directed to the imaging unit 33, and it is possible to easily determine duplication without the need for irradiation with dedicated light such as infrared light. Authenticity determination using the information code 10 can be performed.

Furthermore, since the shape of the confidential information 3 and the position with respect to the code area 11 are used as one of the judgment criteria, the information code attached to the genuine product cannot be recognized simply by a difference between the first captured image and the second captured image. Since it is not determined that the image is being captured, it is possible to improve the accuracy of authenticity determination.

In particular, the information code 10 is formed by providing a specific pattern area, an information recording area, and an empty area 13 in which information is not recorded by light-colored cells and dark-colored cells inside the code area 11. are placed in the free space 13 . As a result, when the information code 10 attached to the genuine article to be authenticated is imaged so that it can be deciphered, the secret information 3 is surely positioned within the imaging range, so that part of the secret information 3 is captured. It is possible to reliably prevent erroneous determination as a counterfeit due to lack of imaging.

[Second embodiment]
Next, an authenticity determination system according to a second embodiment of the present invention will be described with reference to FIG.
In the authenticity determination system 1 according to the second embodiment, the secret information printed as the retroreflective portion using retroreflective ink is formed as an information code different from the information code 10, which is the same as the above-described second embodiment. It is different from the authenticity determination system according to one embodiment. Therefore, substantially the same components as those of the authenticity determination system of the first embodiment are denoted by the same reference numerals, and descriptions thereof are omitted.

The confidential information 3a according to the present embodiment is formed as another information code in which information associated with the information for authenticity determination recorded in the information code 10 is recorded as the predetermined shape, and the information code 10 on the label 2a is recorded. is placed in the empty area 13 of the

Even in this way, the first captured image obtained by capturing the information code 10 in the off state is an image in which the secret information 3a is not captured as shown in FIG. 6A, and the information code 10 is captured in the on state. In the second captured image, as shown in FIG. 6B, the secret information 3a is captured. Therefore, in the authenticity determination process, a difference between the first captured image and the second captured image based on the information code 10 is generated according to the secret information 3a, and this difference is identified in the secret information identification process. Since the shape of the secret information 3a and the position with respect to the code area 11 are considered to match, the secret information 3a is determined to be read (Yes in S121), and the genuine product display process is performed.

On the other hand, in the counterfeit label, which is a copy of the label 2a printed with the information code 10 or the like, the secret information 3a formed as another information code is copied with the same ink as the information code 10 so that the display state shows normal reflection. It will be done. Therefore, when the information code or the like of the counterfeit label is imaged, even if the information decoded from the first captured image and the information decoded from the second captured image match, the first image based on the information code is detected. Since there is no substantial difference between the captured image and the second captured image (No in S117), it is determined that the confidential information 3 is not read, and the warning display process is performed.

In particular, in the present embodiment, by using information recorded in another information code configured as the secret information 3a, the amount of information that can be used at the time of authenticity determination can be increased, and the accuracy of determination regarding authenticity determination can be improved. can be further enhanced.

In this embodiment, as shown in FIG. 6B, the secret information 3a is arranged so as to provide a margin between the code area constituting the other information code and the boundary between the free area 13. However, it is not limited to this, and may be arranged so as to use the entire range of the free space 13 . Since the secret information 3a formed as another information code is arranged in the empty area 13, the outside of the area corresponding to the empty area 13 in the second captured image is replaced with a plain margin, so that the other information code can be displayed. This is because the information code can be decoded. Therefore, the secret information 3a can be formed larger by using the entire range of the empty area 13. FIG.

[Third embodiment]
Next, an authenticity determination system according to a third embodiment of the present invention will be described with reference to FIG.
In the authenticity determination system 1 according to the third embodiment, the dark-color reversing section and the light-color reversing section are arranged such that the information codes captured in the first captured image and the second captured image are different. It is different from the authentication system according to the first embodiment. Therefore, substantially the same components as those of the authenticity determination system of the first embodiment are denoted by the same reference numerals, and descriptions thereof are omitted.

In this embodiment, the information code 10a printed on the label 2b attached to the product G is a QR code having a normal error correction function, using general ink or the like that can be imaged regardless of the ambient brightness. (registered trademark). More specifically, the information code 10a includes an information recording area in which information is recorded by a specific pattern area, a plurality of bright-colored cells and dark-colored cells, and a plurality of bright-colored cells and dark-colored cells. An error correction code recording area for recording an error correction code is provided by the system cell.

In this embodiment, as secret information, a dark color that exhibits a dark-colored reflection characteristic is applied to the information code 10a by using retroreflective ink within an error-correctable range within the code area 11a. Printed so that the system inversion part 3b is arranged on a part of the bright color system cells, and the bright color system inversion part 3c showing the reflection characteristics of the light system is arranged on a part of the dark color system cells. printed. Therefore, a database for specifying the positions of the dark-color reversing portion 3b and the light-color reversing portion 3c from the information for determining authenticity recorded in the information code 10a is stored in the storage unit 32 in advance in accordance with the installation of the authentication application. be built.

As a result, in the first captured image obtained by capturing the information code 10a in the off state, as shown in FIG. A cell in which the system inversion portion 3c is arranged is imaged as a dark color system cell. Then, in the second captured image obtained by capturing the information code 10a in the lighting state, as shown in FIG. The cell in which the portion 3c is arranged is imaged as a bright color cell. For convenience of explanation, in FIG. 7A, dark-colored cells imaged as bright-colored cells in FIG. 7B are hatched, and in FIG. Dark-colored cells imaged as bright-colored cells are hatched.

Even in this way, in the authenticity determination process, the information decoded from the first captured image matches the information decoded from the second captured image (Yes in S113), and the first captured image based on the information code 10a A difference between the image and the second captured image is generated according to the dark color reversal portion 3b and the light color reversal portion 3c printed as the retroreflective portion (Yes in S117). Then, this difference is considered to match the positions of the dark-colored inverted portion 3b and the bright-colored inverted portion 3c specified in the secret information specifying process, so that the secret information is read (Yes in S121). ), the genuine product labeling process is performed.

On the other hand, in the counterfeit label obtained by duplicating the label 2b on which the information code 10a and the like are printed, the dark-color reversal portion 3b and the light-color reversal portion 3c are in a display state in which dark-color reflection characteristics and light-color reflection characteristics are exhibited, respectively. In this way, the information code 10a is duplicated with the same ink as the information code 10a. Therefore, when the information code or the like of the counterfeit label is imaged, even if the information decoded from the first captured image and the information decoded from the second captured image match, the first image based on the information code is detected. Since there is no substantial difference between the captured image and the second captured image (No in S117), it is determined that confidential information is not being read, and the warning display process is performed.

In particular, in this embodiment, even if the information code 10a illuminated with illumination light is compared with the information code 10a not illuminated with illumination light, the brightness of some cells is reversed. At first glance, it is difficult to perceive that the dark color reversal portion 3b and the bright color reversal portion 3c are provided. For this reason, since the confidentiality of the dark-colored inversion portion 3b and the light-colored inversion portion 3c is enhanced, it becomes more difficult to forge the dark-colored inversion portion 3b and the light-colored inversion portion 3c. can be further enhanced.

[Fourth embodiment]
Next, an authenticity determination system according to a fourth embodiment of the present invention will be described with reference to FIGS. 8 and 9. FIG.
The authenticity determination system 1 according to the fourth embodiment includes a dark color reversing unit that functions as a retroreflection unit so that the information decoded from the first captured image and the information decoded from the second captured image do not match, and It differs from the authenticity determination system according to the third embodiment in that the light-color reversal portions are arranged in a predetermined shape. Therefore, the substantially same components as those of the authenticity determination system of the third embodiment are denoted by the same reference numerals, and the description thereof is omitted.

In this embodiment, as confidential information, retroreflective ink is used for the information code 10a printed on the label 2c attached to the product G beyond the error-correctable range inside the code area 11a. Then, the dark-colored inverted portions 3b exhibiting dark-colored reflection characteristics are printed so as to be arranged on some of the bright-colored cells, and the bright-colored inverted portions 3c exhibiting bright-colored reflection characteristics are printed on some of them. is printed so as to be placed on the dark-colored cells of

As a result, in the first captured image obtained by capturing the information code 10a in the off state, as shown in FIG. A cell in which the system inversion portion 3c is arranged is imaged as a dark color system cell. Then, in the second captured image obtained by capturing the information code 10a in the lighting state, as shown in FIG. The cell in which the portion 3c is arranged is imaged as a bright color cell. For convenience of explanation, in FIG. 8A, dark-colored cells imaged as bright-colored cells in FIG. 8B are hatched, and in FIG. Dark-colored cells imaged as bright-colored cells are hatched. That is, the hatched cells in FIG. 8A are the cells in which the bright color reversal portions 3c are arranged, and the hatched cells in FIG. 8B are the dark color cells. This is the system inversion unit 3b.

In particular, since the dark-color reversal portion 3b and the light-color reversal portion 3c are arranged beyond the error-correctable range inside the code region 11a, the information decoded from the second captured image is The information is different from the information decoded from the image and is arranged so as to satisfy a predetermined relationship. That is, the dark-color reversing portion 3b and the bright-color reversing portion 3c convert the second information that satisfies the above-described predetermined relationship to the first information decoded from the first captured image captured in the off state into the second information. It is arranged so that it can be decoded from the captured image. More specifically, an information code from which the second information is decoded is generated with the same code size as the information code 10a, and the information code generated as described above among the cells constituting the information code 10a A dark-color reversal portion 3b or a light-color reversal portion 3c is arranged in a portion of a cell having a different color. By arranging the dark-color reversing portion 3b and the bright-color reversing portion 3c in this way, the first information is decoded from the first captured image captured in the off state, and the second information captured in the on state is decoded. The second information is decoded from the captured image, and the first information and the second information satisfy the predetermined relationship.

In the information code 10a, information for identifying the predetermined relationship (hereinafter also simply referred to as code information) and the like are recorded as at least part of the recording data. Therefore, a database for identifying the predetermined relationship as confidential information from the code information recorded in the information code 10a of the first captured image is built in the storage unit 32 in advance in accordance with the installation of the authenticity application.

Then, in the authenticity determination processing according to the present embodiment, as shown in the flowchart of FIG. 9, the processing up to step S111 is performed in the same manner as in the first embodiment, and each of the first captured image and the second captured image is When the information is decoded, confidential information identification processing shown in step S127 is performed. In this process, the predetermined relationship is specified as secret information based on the database constructed in the storage unit 32 from the code information decoded from the information code 10a of the first captured image.

Then, in the determination processing in step S129, it is determined whether or not the decoded information decoded from each of the first captured image and the second captured image has the predetermined relationship. Here, the first information is decoded from the first image captured in the off state, the second information is decoded from the second image captured in the light on state, and the first information and the second image are decoded. satisfies the above-described predetermined relationship, a determination of Yes is made in step S129, and the above-described genuine product display processing is performed.

On the other hand, in the counterfeit label obtained by duplicating the label 2c on which the information code 10a and the like are printed, the dark-color reversal portion 3b and the light-color reversal portion 3c are in a display state showing dark-color reflection characteristics and light-color reflection characteristics, respectively. In this way, the information code 10a is duplicated with the same ink as the information code 10a. Therefore, when the information code or the like of the counterfeit label is imaged, the information decoded from the first imaged image and the information decoded from the second imaged image match, and the predetermined relationship is not satisfied. (No in S129), the warning display process is performed.

As described above, in the authenticity determination system 1 according to the present embodiment, the information code 10a is positioned within the same imaging range when the image of the information code 10a is captured by the mobile terminal 20 in the product G to be authenticated. The reflective part is arranged in a predetermined shape. Then, in the authenticity determination processing performed by the control unit 31, the first captured image captured by the imaging unit 33 in a state in which the illumination light is not irradiated and the state in which the illumination light is irradiated by the irradiation unit 34 are captured for the same information code 10a. If the information decoded from the first captured image is different from the information decoded from the second captured image based on the second captured image captured in step S129 and the information decoded from the second captured image satisfies the predetermined relationship (Yes in S129 ), it is determined that the authenticity determination target to which the information code 10a is attached is a genuine product (S123). For this reason, the retroreflection portion has the predetermined shape as described above, and the dark-color reversal portion 3b arranged on a part of the light-color cells inside the code region 11 and exhibiting a dark-color reflection characteristic. The second information decoded by the decoding unit from the second captured image is transferred from the decoding unit to the first captured image. is information that is different from the first information decoded by and is formed so as to satisfy the above-described predetermined relationship.

As a result, when the information code 10a affixed to the genuine product to be authenticated is captured, in the second imaged image, the dark color reversal portion 3b and the light color reversal portion 3c (recursive color reversal) irradiated with the illumination light are displayed. In the first captured image, since the imaging unit 33 is held over the information code 10a, the light from the imaging unit 33 side that is reflected toward the imaging unit 33 is reflected in the dark color reversal part. 3b and the bright-color reversal portion 3c are not irradiated, the dark-color reversal portion 3b and the bright-color reversal portion 3c are difficult to be clearly reflected. That is, since the code region included in the second captured image and the code region included in the first captured image have different cell arrangement configurations, the second information decoded from the second captured image is decoded from the first captured image. If the information is different from the received first information and satisfies the above-described predetermined relationship, it can be determined that the information code 10a attached to the genuine article to be authenticated is being imaged. On the other hand, when the duplicated information code 10a is imaged, the information decoded from the first captured image matches the information decoded from the second captured image, and the above predetermined relationship is satisfied. Therefore, it can be determined that the duplicated information code is imaged. Therefore, it suffices to irradiate the dark-color reversing portion 3b and the light-color reversing portion 3c with the illumination light so that the reflected light from the dark-color reversing portion 3b and the light-color reversing portion 3c is directed toward the imaging portion 33. Authenticity determination can be performed using the information code 10a that can easily determine duplication without requiring irradiation of dedicated light such as light.

It should be noted that the present invention is not limited to the above embodiments and modifications, and may be embodied as follows, for example.
(1) As a modification of the first embodiment, the secret information 3 is not limited to being formed as a star-shaped figure, but may be formed as a circular figure, a polygonal figure, or the like. , "secret", or the like. Moreover, the secret information 3 is not limited to being arranged in the empty area 13, and may be arranged at a predetermined position near the code area 11 in the information code 10a or the like that does not have the empty area 13. FIG. For example, by arranging the confidential information 3 as shown in the label 2d illustrated in FIG. 10, the first captured image obtained by imaging the information code 10a in the off state includes the confidential information 3a as illustrated in FIG. is not included in the image, and the second captured image obtained by capturing the information code 10a in the lighting state is an image in which the secret information 3a is included as shown in FIG. 10B. Similarly, in the second embodiment, the secret information 3a is not limited to being placed in the empty area 13, but is placed at a predetermined position near the code area 11 in the information code 10a or the like that does not have the empty area 13. may be placed.

(2) In the authenticity determination process in the first embodiment and the like, the difference between the two images is not limited to capturing the first captured image in the off state and then capturing the second captured image in the lit state. The difference between the two images may be obtained by capturing an image in the lighting state and then capturing an image in the off state. Similarly, in the authenticity determination process in the fourth embodiment and the like, the first information and the second information decoded by capturing the first captured image in the off state and then capturing the second captured image in the lit state. is not limited to determining whether or not has the predetermined relationship, and whether or not the two pieces of information decoded by capturing an image in the lit state and then capturing the image in the off state have the above predetermined relationship. It may be determined whether or not Moreover, the difference between the images captured by repeating the lighting state and the lighting-out state a plurality of times may be obtained.

(3) The object to be authenticated by the authenticity determination system 1 according to the present invention is not limited to expensive products that require countermeasures against imitations, and may be, for example, manufacturer genuine products.

(4) The authenticity determination device according to the present invention is not limited to being configured as a smartphone or the like owned by a general user like the mobile terminal 20, and any terminal having an illumination unit such as an LED and an imaging unit such as a camera It may be configured as a stationary type, for example.

(5) The mobile terminal 20 (authentication determination device) transmits the first captured image and the second captured image of the captured information code 10 or the like to an external server functioning as a decoding server, and the external server performs the above-described authentication determination process. You may make it receive a determination result. At this time, by transmitting a terminal ID or the like for distinguishing the mobile terminal 20 from other mobile terminals or the like, the external server may perform processing such as changing the determination criteria for each mobile terminal 20 .

1... Authenticity determination system 2, 2a to 2d... Labels 3, 3a... Confidential information (recursive reflector)
3b... Dark-colored reversal portion (retroreflection portion)
3c... Bright color reversal part (retroreflection part)
10, 10a... Information code 11, 11a... Code area 13... Empty area 20... Portable terminal (authentication determination device)
31 ... control unit (decoding unit, determination unit)
33... Imaging unit 34... Irradiation unit G... Product (authenticity determination object)

Claims (2)

an information code attached to an object to be authenticated;
an authenticity determination device that performs authenticity determination regarding the authenticity determination target using a reading result obtained by imaging and reading the information code;
An authenticity determination system comprising
The information code includes a specific pattern area in which a specific pattern having a predetermined shape is arranged inside a code area configured by arranging a plurality of light-colored cells and dark-colored cells, and a plurality of light-colored cells. an information recording area in which predetermined information is recorded by the cells and the dark-colored cells;
A retroreflecting portion is arranged in the authentication object in a predetermined shape so as to be positioned outside the code region within the same imaging range when the information code is imaged by the authentication device. ,
The retroreflection section is configured to be capable of retroreflecting incident light, and the retroreflection section is not irradiated with light, or the retroreflection section receives light from a direction different from the imaging direction. is irradiated, the reflected light from the retroreflector is not reflected in the imaging direction, so that it cannot be imaged in a clear state,
The authenticity determination device is
an imaging unit that images the information code;
an irradiation unit that irradiates the imaging range of the imaging unit with illumination light such that the optical axis is along the imaging direction;
a decoding unit that decodes the information code imaged by the imaging unit;
a determination unit that determines the authenticity of the authentication target attached with the information code imaged by the imaging unit;
with
The determination unit determines a first captured image captured by the imaging unit without being irradiated with the illumination light and a second captured image captured by the irradiation unit while the illumination light is being irradiated for the same information code. If the information decoded by the decoding unit from the first captured image matches the information decoded by the decoding unit from the second captured image based on the first captured image based on the information code An authenticity determination system, wherein a difference between an image and the second captured image is obtained, and authenticity determination is performed according to a comparison result between the difference and the predetermined shape. 2. The authenticity determination according to claim 1, wherein the retroreflective portion is formed as another information code in which information associated with the information recorded in the information code is recorded as the predetermined shape. system.

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