JPWO2005055154A1 - Authenticity determination method and apparatus - Google Patents

Abstract

Ensuring high reliability of authenticity judgment for objects to which information presenting substances are applied. Among the information presentation materials that emit fluorescence in response to the irradiation of electromagnetic waves in a specific wavelength region, individual fluorescence spectra emitted by each of the finite types of genuine information presentation materials are stored in advance. An object 90 for authenticity determination is irradiated with electromagnetic waves in a specific wavelength region, and the emitted object fluorescence spectrum is detected. The object fluorescence spectrum detected in this way is reproduced by a combination of individual fluorescence spectra of finite kinds of genuine information-presenting substances stored in advance, and if the object fluorescence spectrum cannot be reproduced, the object 90 is determined as a fake.

Description

  The present invention relates to an authenticity determination method and apparatus for determining the authenticity of various objects such as brand products, foods, and industrial products.

There has been proposed a method of reading information associated in advance with the type or the like of the information presenting substance by giving information presenting substance to various objects and detecting the fluorescence emitted from the object (see Patent Documents 1 and 2 below). 3).
JP 2002-332414 A JP 2002-336798 A WO03 / 058549

  However, since there are many types of substances that emit fluorescence, a third party may combine these to forge a fluorescence spectrum that approximates the fluorescence spectrum of a genuine information-presenting substance. It was difficult to do.

  The present invention has been made in view of the above problems, and an object thereof is to provide an authentication method and apparatus capable of ensuring reliability.

  The present invention provides the following means.

[1] An authenticity determination method for determining the authenticity of an object provided with an information presenting substance,
One or more elements that fluoresce when irradiated with electromagnetic waves in a specific wavelength range, compounds of two or more elements, or information-presenting substances that contain those elements or compounds With respect to the authentic information-presenting substance, a fluorescence spectrum emitted by each electromagnetic wave irradiation in a specific wavelength region is stored in advance as an individual fluorescence spectrum,
Irradiating the object with an electromagnetic wave in a specific wavelength region to detect a fluorescence spectrum emitted from the object as an object fluorescence spectrum;
Trying to reproduce the object fluorescence spectrum by combining the individual fluorescence spectra,
An authenticity determination method, wherein the authenticity of the object is determined based on whether the object fluorescence spectrum can be reproduced by a combination of the individual fluorescence spectra.

  [2] The reproduction of the object fluorescence spectrum is performed by searching for a combination of the individual fluorescence spectra that matches the object fluorescence spectrum in all of a predetermined wavelength region. Authentication method.

[3] Among the relative blending ratios when combining the finite kinds of genuine information presenting substances, the finite kinds of genuine blending ratios are stored in advance,
3. The authenticity determination method according to item 1 or 2, wherein the reproduction of the object fluorescence spectrum is performed by combining the individual fluorescence spectra at the genuine blending ratio.

[4] One or more types of the finite kinds of genuine information presenting substances, and information related to each object are stored in association with a relative blending ratio when combining them,
When the object fluorescence spectrum can be reproduced by a combination of the individual fluorescence spectra, information related to the object stored in association with the type and blending ratio of the information presenting substance at the time of reproduction can be output. The authenticity determination method according to any one of the preceding items 1 to 3.

[5] An authenticity determination device for determining the authenticity of an object to which an information presentation substance is attached,
One or more elements that fluoresce when irradiated with electromagnetic waves in a specific wavelength range, compounds of two or more elements, or information-presenting substances that contain those elements or compounds Individual fluorescence spectrum storage means for preliminarily storing, as an individual fluorescence spectrum, a fluorescence spectrum that each radiates with respect to irradiation of electromagnetic waves in a specific wavelength region,
An object fluorescence spectrum detecting means for irradiating the object with electromagnetic waves in a specific wavelength region and detecting a fluorescence spectrum emitted from the object as an object fluorescence spectrum;
Spectrum reproduction means for attempting to reproduce the object fluorescence spectrum by a combination of the individual fluorescence spectra;
Whether or not the object fluorescence spectrum can be reproduced by the combination of the individual fluorescence spectra by the spectrum reproduction means, and determination means for determining whether the object is true or false;
An authenticity determination device comprising:

[6] An authentication system including a detection device terminal in the vicinity of an object to which an information presenting substance is attached, and a server capable of transmitting and receiving information via the detection device terminal and a network line,
The detection device terminal is
An object fluorescence spectrum detecting means for irradiating the object with electromagnetic waves in a specific wavelength region and detecting a fluorescence spectrum emitted from the object as an object fluorescence spectrum;
Transmitting means for transmitting information on the object fluorescence spectrum to the server;
Receiving means for receiving a predetermined response action command from the server;
With
The server
One or more elements that fluoresce when irradiated with electromagnetic waves in a specific wavelength range, compounds of two or more elements, or information-presenting substances that contain those elements or compounds Individual fluorescence spectrum storage means for preliminarily storing, as an individual fluorescence spectrum, a fluorescence spectrum that each radiates with respect to irradiation of electromagnetic waves in a specific wavelength region,
Receiving means for receiving information on the object fluorescence spectrum from the detection device terminal;
Spectrum reproduction means for attempting to reproduce the object fluorescence spectrum by a combination of the individual fluorescence spectra;
Whether or not the object fluorescence spectrum can be reproduced by the combination of the individual fluorescence spectra by the spectrum reproduction means, and determination means for determining whether the object is true or false;
Transmitting means for transmitting a predetermined response operation command according to the determination result to the detection device terminal;
An authentication system characterized by comprising:

[7] A detection device terminal that is in the vicinity of an object to which an information presenting substance is attached and is capable of transmitting / receiving information to / from a server via a network line,
An object fluorescence spectrum detecting means for irradiating the object with electromagnetic waves in a specific wavelength region and detecting a fluorescence spectrum emitted from the object as an object fluorescence spectrum;
One or more elements that fluoresce when irradiated with electromagnetic waves in a specific wavelength range, compounds of two or more elements, or information-presenting substances that contain those elements or compounds With respect to the authentic information presenting substance, information on the object fluorescence spectrum is transmitted to a server that stores in advance the fluorescence spectrum emitted by each electromagnetic wave irradiation in a specific wavelength region as an individual fluorescence spectrum. Transmitting means for transmitting via,
Receiving means for determining whether the object is true or false based on whether or not the object fluorescence spectrum can be reproduced by a combination of individual fluorescence spectra, and receiving a predetermined response operation command determined according to the determination result from the server When,
A detection apparatus terminal comprising:

  According to the present invention, in order to determine the authenticity of an object from whether or not the detected object fluorescence spectrum is reproduced by a combination of individual fluorescence spectra exhibited by a preset finite type of authentic information presenting substance, Even if a counterfeit exhibiting a fluorescence spectrum that approximates a genuine product is produced by a third party, it can be identified and high reliability of authenticity determination can be ensured.

  In addition, since the examination range can be limited to a combination of finite kinds of genuine information presenting substances, the calculation load required for authenticity determination can be reduced.

  Even if a fluorescence spectrum is detected from an object by a third party, since there are nearly infinite types of substances that emit fluorescence, the genuine information-presenting substance that constitutes the detected fluorescence spectrum is specified. It is virtually impossible to do.

  In addition, if the relative blending ratio of genuine information-presenting substances is also finite, the examination range for combining information-presenting substances can be further limited, and the calculation load for authenticity determination can be further reduced.

  Further, when information related to an object associated with a combination of information presenting substances is output, information related to the object can be obtained in addition to the result of authenticity determination of the object.

  Further, if the authentication system for determining the authenticity of an object includes a detection device terminal that detects a fluorescence spectrum from the object and a server that determines the authenticity of the object from the fluorescence spectrum, it is possible to present authentic information. Information on substances can be centrally managed in the server, thereby enhancing the confidentiality of information on authentic information-presenting substances and further reducing the risk of forgery.

FIG. 1 is an overall configuration diagram of an authenticity determination system according to an embodiment of the present invention.
[FIG. 2] FIG. 2 is a block diagram of an object fluorescence spectrum detecting means.
FIG. 3 is an example of a waveform of an object fluorescence spectrum detected from a certain object.
[FIG. 4] FIG. 4 is an example of an individual fluorescence spectrum of a genuine information-presenting substance stored in advance.
[FIG. 5] FIG. 5 is an example of a genuine blending ratio stored in advance.
FIG. 6 is an example of information related to an object.
[FIG. 7] FIG. 7 is a flowchart showing a procedure of authenticity determination processing.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Authenticity determination system 20 Detection apparatus terminal 21 Object fluorescence spectrum detection means 22 Object information output means 23 Transmission means 24 Reception means 30 Server 31 Individual fluorescence spectrum storage means 32 Compounding ratio storage means 33 Spectrum reproduction means 34 Determination means 35 Target object Information storage means 36 Object information search means 37 Receiving means 38 Transmitting means 40 Network line 90 Object

  Next, an embodiment of the present invention will be described.

[Object]
In authenticity determination according to the present invention, various objects can be used as objects for authenticity determination as long as authenticity determination is required.

  Examples of objects for authenticity judgment include home appliances, clothing, accessories, bags, shoes, accessories, watches, rings, clothes, stationery, tableware, interior products, paintings, scrolls, processed foods and pharmaceuticals. Listed are various products that are distributed. Further, the object of authenticity determination may be the material itself used for various products. Specific examples include various plastic materials, paints, inks, paper, fibers, metals, and the like. Further, the object for authenticity determination may be a natural product. Specific examples include meat, vegetables, wild vegetables, seafood, and drinking water. In addition, the objects of authenticity judgment include certificates, securities, certificates, banknotes, coins, passports, driver's licenses, health insurance cards, checks, Or a stock certificate etc. may be sufficient. Also, the object of authenticity judgment is the packaging materials (inner boxes, outer boxes, manuals, wrapping paper, packaging bags, cardboard, polystyrene foam, plastic containers, etc.) of products, etc., and labels and tags attached to products. There may be.

  The information presenting substance is given to the object for authenticity determination of the present invention.

[Information presentation material]
The information presenting substance is one or two or more elements, a compound of two or more elements, or a compound of two or more elements that emits predetermined fluorescence in response to irradiation of electromagnetic waves in a specific wavelength region (for example, ultraviolet rays in a predetermined wavelength region). Consists of substances containing elements or compounds. This fluorescence is emitted when an ion of the information-presenting substance is excited from a ground level to a high energy level by an external electromagnetic wave irradiation and then transitions to a low energy level. The information presenting substance emits a specific fluorescence spectral distribution depending on its type.

Information-presenting substances may contain elements or compounds (oxides, sulfides, organic complexes, etc.) that are not generally contained in various general-purpose materials such as various plastics, paints, inks, paper, fibers or metals. preferable. As elements not generally contained in various general-purpose materials, elements of atomic number 31 to atomic number 88, preferably lanthanoid elements, more preferably cerium (Ce), praseodymium (Pr), neodymium (Nd) , Promethium (Pm), samarium (Sm), europium (Eu), gadolinium (Gd), terbium (Tb), dysprosium (Dy), holmium (Ho), erbium (Er), thulium (Tm), ytterbium (Yb) Can be mentioned.
These elements are easy to measure by spectral analysis, are economical and hygienic, and are easily available as oxides. As information-presenting substances, one or more of these elements are combined. Are preferred. In addition, as an information presentation substance, even if it contains the same element, if the kind of other element combined and the ratio of a combination differ, it can be handled as another information presentation substance.

  In addition, when the information presenting substance uses fluorescence from infrared light to ultraviolet light, a single crystal to which a transition element having an incomplete 3d shell and / or a transition element having an incomplete 4f shell is added, Glass added with a transition element having a complete 3d shell and / or a transition element having an incomplete 4f shell, a complex centered on a transition element having an incomplete 3d shell and / or a transition element having an incomplete 4f shell, etc. However, it is preferable because high fluorescence intensity can be obtained.

Further, the information presenting substance may be a substance obtained by adding a transition element to a predetermined base substance, such as yttrium oxide (Y ₂ O ₃ ) containing europium (Eu ³⁺ ). Examples of the base material include oxides, sulfides, nitrides, hydroxides, halides, mixed crystals, amorphous materials, and glass. For example, transition elements that are included in the form of chemical bonds such as chelate compounds, those that substitute other atoms or ions that constitute the crystal lattice, those that are included by being inserted into the crystal lattice, or glass The thing contained in the inside gap is mentioned.

  In particular, when an information presenting substance is produced using an inorganic oxide as a base material, it becomes very stable, for example, it is not destroyed even at a high temperature of 1000 ° C. and remains in the object. Therefore, even when the object is disposed of by incineration or illegally discarded after incineration, the fluorescence of the information presenting substance can be detected. Further, even when the object is made of a liquid such as an aqueous solvent, an organic solvent, or a turbid liquid, the information presenting substance does not undergo a chemical change, and the fluorescence of the information presenting substance can be detected. . Therefore, for example, the information presenting substance can be given using waste liquid discharged from a factory as an object.

  The information presenting substance may be fine particles having an average particle diameter of 1 nm to 20 μm, preferably 10 nm to 10 μm, and the particles may form a multimer such as a dimer or a trimer. If the particle size of the information presenting substance is reduced, the fluorescence of the information presenting substance is likely to change due to the difference in the production history. Therefore, the type of information presenting substance is substantially increased, and the confidentiality of the authentic information presenting substance is increased. There is an advantage that can be increased. To make such fine particles, various methods such as chemical reaction method, sol-gel method, colloid method, gas coagulation method, gas reaction method, gas evaporation method, sputtering method, glass crystallization method, precipitation method, spray method, etc. The method can be used.

  In addition, the information presenting substance may have a surface modified with a surface modifier such as deuterium or an organic substance, or a substance coated with a substance other than the base material. In this way, the particle size and structure can be fixed, the luminous efficiency can be improved, and it can be easily dissolved in a specific solvent, so that it can be more familiar with surrounding substances.

  Various methods can be adopted as a method of giving such an information presentation substance to an object to be determined as long as the information presentation substance can be included on the surface or inside of the object. For example, spraying, spraying, coating, adsorption, injection, filling, sticking, penetration, mixing, addition, or chemical bonding (polymerization, crosslinking, ionic bonding, etc.) can be mentioned.

  Specifically, when the object is a plastic material, there are a method of direct blending after dry blending with a drum tumbler or the like, a method of compounding with an extruder, a method of compounding or molding with an internal mixer or a heating roll, etc. Can be mentioned. Moreover, you may implement the use after making a masterbatch. In order to ensure uniform distribution and dispersion of the information presenting substance in the object, fatty acid amide, fatty acid metal salt, or fatty acid ester may be used as a lubricant.

  Moreover, it is preferable that the amount of the information presenting substance to be applied to the object is in a very small range that does not affect the appearance and physical properties of the object. Specifically, it varies depending on the type of the object, but when it is contained in the object, a range of 0.1 ppm or more and 1000 ppm or less is suitable for the object. If it is 0.1 ppm or more, the fluorescence exhibited by the information presenting substance can be reliably detected, and if it is 1000 ppm or less, the appearance and physical properties of many objects are not affected. Furthermore, if it is 0.5 ppm or more, the reliability of the measurement can be sufficiently secured for the detection of fluorescence exhibited by the information presenting substance. Moreover, if it is set to 200 ppm or less, the appearance and physical properties of most objects will not be affected, and the economic burden of imparting information-presenting substances to the objects can be kept low.

  In the authenticity determination according to the present invention, a finite type of information presenting substance is selected in advance as a genuine information presenting substance among the various information presenting substances that emit fluorescence. And the authentic object of the authenticity judgment concerning this invention is given combining 1 type or multiple types among this finite type authentic information presentation substance.

  In the authenticity determination according to the present invention, a finite type of genuine blending ratio is selected in advance as a relative blending ratio when combining a finite type of genuine information presenting substance. And the authentic information presenting substance is combined and given to the authentic object for authenticity determination according to the present invention in an authentic mixing ratio.

  The kind of authentic information-presenting substance (including composition, structure, production history, particle size, etc.), the fluorescence spectrum exhibited by the authentic information-presenting substance, and the true blending ratio of the authentic information-presenting substance are defined in the present invention. This is confidential information that is concealed by the operator of the authentication method.

[Authenticity judgment system]
Next, an authenticity determination system for determining the authenticity of an object provided with such an information presentation substance will be described with reference to the drawings.

  FIG. 1 is an overall configuration diagram of an authenticity determination system. As shown in FIG. 1, this authenticity determination system 10 includes a detection device terminal 20 in the vicinity of an object 90, and a server 30 capable of transmitting and receiving information via the detection device terminal 20 and a network line 40 such as the Internet. And.

<Detection device terminal>
The detection device terminal 20 detects a fluorescence spectrum emitted from the object 90 by the information presentation substance 91. In terms of hardware, the detection device terminal 20 includes a computer having a storage means such as a CPU, RAM, ROM, and hard disk device, an information communication device, an external input / output device, and the like, and detects a fluorescence spectrum from an object. Information processing functions such as processing to perform and processing to send and receive various information to and from the server 30 are configured on this computer. The detection apparatus terminal 20 functionally includes an object fluorescence spectrum detection unit 21, an object information output unit 22, a transmission unit 23, and a reception unit 24.

  The object fluorescence spectrum detecting means 21 irradiates the object 90 with electromagnetic waves in a predetermined wavelength region, and detects the fluorescence spectrum emitted from the information presenting substance 91 in response to the irradiation as the object fluorescence spectrum. is there.

  FIG. 2 is a configuration diagram of the object fluorescence spectrum detection means 21. As shown in FIG. 2, the target fluorescence spectrum detecting means 21 includes an excitation light source 211 that emits electromagnetic waves (excitation light) in a predetermined wavelength region, and this excitation light at a site including the information presentation substance 91 of the target 90. A condensing optical system 212 that collects light, a light receiving optical system 213 that receives the excitation light and receives fluorescence emitted from the information presentation substance 91, and a spectroscope 214 that spectrally processes the fluorescence guided to the light receiving optical system 213. And.

  FIG. 3 shows an example of the waveform of the object fluorescence spectrum detected from a certain object 90 by the object fluorescence spectrum detection means 21. One or a plurality of types of information presentation substances 91 are given to the object 90. In the case of a plurality of kinds, the object fluorescence spectrum detected from the object 90 is a fluorescence spectrum ( The individual fluorescence spectra are superimposed.

  Prior to detecting the target fluorescent spectrum from the target 90, the target fluorescent spectrum detecting means 21 detects in advance disturbance light from a fluorescent lamp or the like in the measurement environment without placing the target 90 at the detection position. It is preferable to do. The disturbance light spectrum thus detected can be used for accurate collation of the object fluorescence spectrum.

  The object information output means 22 displays and outputs the result of the authenticity determination of the object 90 performed in the server 30 and information regarding the object 90 when the object 90 is genuine. Is. The object information output means 22 is composed of, for example, a liquid crystal display.

  The transmission means 23 transmits information on the object fluorescence spectrum detected by the object fluorescence spectrum detection means 21 to the server 30. The information on the object fluorescence spectrum to be transmitted may be all of the information detected by the object fluorescence spectrum detection means 21 or may be a part set in advance.

  When the disturbance light spectrum in the measurement environment is detected in advance, the transmission unit 23 preferably transmits information regarding the disturbance light spectrum to the server 30 together with the information on the object fluorescence spectrum.

  The receiving unit 24 receives a predetermined response operation command from the server 30. Specifically, the result of the authenticity determination of the target object 90 performed in the server 30 and, when the target object 90 is a genuine product, information on the target object 90 is used as the target object information output means. A command or the like to be displayed and output at 22 is received.

<Server>
The server 30 determines the authenticity of the object based on the object fluorescence spectrum detected by the detection device terminal 20. The server 30 is composed of a computer including a CPU, a RAM, a ROM, a storage device such as a hard disk device, an information communication device, an external input / output device, etc. in terms of hardware, and a process for determining the authenticity of an object. Information processing functions such as these are configured on this computer. The server 30 may be configured by being distributed to a plurality of computers. The server 30 functionally includes an individual fluorescence spectrum storage means 31, a blending ratio storage means 32, a spectrum reproduction means 33, a determination means 34, an object information storage means 35, an object information search means 36, Receiving means 37 and transmitting means 38 are provided.

  The individual fluorescence spectrum storage means 31 stores, as an individual fluorescence spectrum, a fluorescence spectrum emitted from each of the finite kinds of genuine information presentation materials selected in advance with respect to irradiation of electromagnetic waves in a specific wavelength region. It is.

  FIG. 4 is an example of the individual fluorescence spectrum of the genuine information presentation substance stored in the individual fluorescence spectrum storage means 31. In this example, no. 1-No. Six types of 6 are selected in advance.

  If the individual fluorescence spectrum storage means 31 has stored individual fluorescence spectra for each genuine information presenting substance, the individual fluorescence spectrum storage means 31 also stores information that is a clue for creating the information presenting substance, such as the name and composition of the genuine information presenting substance. You don't have to.

  The blending ratio storage means 32 stores in advance a finite type of genuine blending ratio among the relative blending ratios when combining finite types of genuine information presenting substances.

  FIG. 5 is an example of a genuine blending ratio stored in the blending ratio storage means 32. In this example, no. 1-No. Five types of 5 are selected in advance. For example, no. A blending ratio of 1 indicates that two kinds of genuine information-presenting substances are combined at a ratio of 1: 3.

  The spectrum reproduction means 33 uses the finite types of genuine information stored in the individual fluorescence spectrum storage means 31 in advance, and the finite types of genuine information stored in the blending ratio storage means 32 in advance. By combining with the blending ratio, the reproduction of the object fluorescence spectrum detected from the object 90 is attempted. This reproduction is based on searching for a combination of individual fluorescence spectra that matches the target fluorescence spectrum in the entire predetermined wavelength range. As the predetermined wavelength range, a wavelength range in which some or all of the characteristics of the individual fluorescence spectrum appear may be arbitrarily set as appropriate. Further, “spectrum matches” includes a case where a difference between contrasted spectra is within a predetermined allowable range based on the influence of noise or the like.

  This reproduction can reduce the calculation load because there are only a limited number of information presentation substances to be combined and the blending ratio when combining them in advance, and the combination examination range of information presentation substances can be limited.

  This reproduction may be performed by confirming a finite number of combinations in order or using any efficient search algorithm. For example, from the detected object fluorescence spectrum, if the object 90 is a genuine product, the information presenting substance that should be surely included is specified to further limit the search range, or information that is likely to be included A technique for preferentially searching for a combination of substances can be employed.

  When the spectrum of the disturbance light in the measurement environment of the object is detected in advance, the spectrum reproduction means 33 treats the spectrum of the disturbance light in the same manner as the individual fluorescence spectrum and reproduces the object fluorescence spectrum. It is preferable to make it. In this way, even if the disturbance light conditions change depending on the type of fluorescent lamp in the measurement environment, the target fluorescence spectrum can be reproduced more appropriately and accurately in response to this change. Can do. In addition, it is possible to incorporate a response to changes in ambient light in the processing procedure performed by the spectrum reproduction unit 33 that combines individual fluorescence spectra. Therefore, a simple configuration can be realized without requiring a separate countermeasure.

  The determination unit 34 determines the authenticity of the target object 90 based on whether or not the object fluorescence spectrum detected from the target object 90 has been reproduced by the spectrum reproduction unit 33. If the object 90 is a genuine product, it should be reproducible in combination with the authentic blending ratio of the individual fluorescence spectrum emitted by the authentic information-presenting substance. If the object 90 cannot be reproduced, the object 90 can be determined to be a fake. it can.

  Even if an object fluorescence spectrum of the genuine product 90 is detected by a third party, since there are almost infinite types of substances that emit fluorescence (information presentation substances), the detected object fluorescence spectrum is configured. It is virtually impossible to identify genuine information-presenting substances. Therefore, even if a counterfeit exhibiting a fluorescence spectrum that approximates a genuine product is produced by a third party, it cannot be virtually assumed that it is produced by combining genuine information-presenting substances. Since the fluorescence spectrum exhibited by each information-presenting substance is different if the predetermined wavelength range is seen, the fake fluorescence spectrum obtained by combining the fake information-presenting substance is reproduced by combining the genuine information-presenting substance. There is no coincidence between the fluorescence spectrum and the entire predetermined wavelength range. Therefore, the forged object 90 can be identified, and high reliability of authenticity determination can be ensured.

  The object information storage means 35 stores information related to the object.

  FIG. 6 is an example of information relating to the object stored in the object information storage means 35. Information on the object is stored in association with one or more kinds of finite kinds of genuine information presenting substances and a relative blending ratio when combining them. In this example, No. 1 shown in FIG. No. 1 information presentation substance and No. 1 shown in FIG. No. 3 information presenting substance is No. 3 shown in FIG. Information regarding the object of product name B and lot number xx of company A is associated with a combination of 3 blending ratios, that is, a ratio of 1:12.

  The object information search means 36 specifies information relating to the object 90 when the determination means 34 determines that the object 90 is genuine. When the determination unit 34 determines that the object 90 is a genuine product, the type and the mixing ratio of the genuine information presenting substance used to reproduce the object fluorescence spectrum by the spectrum reproduction unit 33 are found. Yes. The object information search means 36 searches the object information storage means 35 based on the type and blending ratio of the information presenting substance, and extracts information related to the object 90.

  The receiving unit 37 receives information on the target fluorescent spectrum detected by the target fluorescent spectrum detecting unit 21 from the detection device terminal 20.

  The transmission means 38 transmits a predetermined response operation command corresponding to the authenticity determination for the object 90 to the detection device terminal 20. Specifically, a command or the like for displaying and outputting the result of the authenticity determination of the target object 90 performed in the server 30 and information on the target object 90 when the target object 90 is a genuine product. Send.

  Thus, in this authenticity determination system 10, since the detection apparatus terminal 20 outputs not only the authentication result of the object 90 but also information related to the object 90, the object 90 can be handled more appropriately.

  In addition, since the server 30 remote from the site where the object 90 is located is centrally managed by the server 30 remote from the site where the object 90 is located, the type and the fluorescence spectrum of the genuine information-presenting substance used for the authenticity determination of the object 90 are further managed. As a result, it is possible to increase the confidentiality of information related to the genuine information presenting substance and particularly reduce the risk of forgery.

  Moreover, since the authenticity determination process of the object 90 is performed on the server 30 side, the performance burden required for the detection device terminal 20 can be reduced, and the detection device terminal 21 can be reduced in size and portability.

<Authentication determination procedure>
Next, the procedure of the authenticity determination process in the authenticity determination system 10 will be described with reference to the flowchart of FIG.

  In this authenticity determination processing, first, in the detection apparatus device terminal 20, the information presenting substance 91 imparted to the object 90 by the object fluorescence spectrum detecting means 21 is emitted to the object 90 placed at a predetermined position. An object fluorescence spectrum to be detected is detected (step S10).

  The information of the object fluorescence spectrum read in this way is transmitted from the detection device terminal 20 to the server 30 (step S12).

  In the server 30 that has received the information on the fluorescence spectrum of the object (Step S14), the spectrum reproduction means 33 combines the individual fluorescence spectra of the genuine information-presenting substances at a genuine blending ratio, thereby detecting the object detected from the object 90. The reproduction of the object fluorescence spectrum is tried (step S16).

  If it cannot be reproduced (NO in step S18), it is determined that the object 90 is fake (step S20), and the authenticity determination result (fake) is transmitted to the detection device terminal 20 (step S22). Upon receiving this (step S24), the object information output means 22 displays and outputs the authentication result (fake) (step S26), and the series of authentication processing ends.

  On the other hand, if the object fluorescence spectrum detected from the object 90 can be reproduced by combining the individual fluorescence spectra of the genuine information-presenting substances at an authentic blending ratio (YES in step S18), the object 90 is genuine. It is determined that there is (step S28). Then, information on the authentic object 90 is extracted from the object information storage means 35 from the type and blending ratio of the information presenting substance used for the reproduction (step S30), and the authenticity determination result (authentic product) and the object Information about the object 90 is transmitted to the detection apparatus terminal 20 (step S32). In the detection device terminal 20 that has received this (step S34), the object information output means 22 displays and outputs the authentication result (authentic product) and information about the object 90 (step S36), and a series of authentication determination processes. finish.

[Other Embodiments]
As mentioned above, although this invention was demonstrated based on one Embodiment, this invention is not limited to the said embodiment, You may comprise as follows.

  (1) In the above embodiment, the authenticity determination of the object is performed by the authenticity determination system 10 including the detection device terminal 20 and the server 30 connected via the network line 40. However, these functions are provided. A single authenticity determination device may be configured.

  (2) Transmission and reception of various types of information between the detection device terminal 20 and the server 30 may be performed in a state where encryption that can be decrypted by both is performed.

  (3) In the said embodiment, although the information (FIG. 6) regarding the target object which assumed the industrial product as a target object was illustrated, it is not limited to this. For example, when the object 90 is a credit card or a cash card, information related to the user includes information related to the user and information such as an identification number. Further, when the object 90 is a check, a securities, or a banknote, information such as an identification number or an identification symbol can be given as information related thereto. In addition, when the object 90 is a label or the like attached to food, information on the food production location, production time, and the like can be given as information related thereto. Further, when the object 90 is a hospital ID card, information such as medical chart information and medicine information can be mentioned. In addition, when the object 90 is a resident management ID card or the like, information described in a resident card or a seal certificate may be used.

  (4) In the above embodiment, the authenticity determination of the object 90 is simply displayed and output. However, the result of the authenticity determination depending on the type of the object 90 and the purpose of use of the authenticity determination system 10 is shown. It may be used for various response operations. For example, instead of the display output of information on the object, or together with the display output, audio output or print output may be performed. When the object 90 is an ID card for room management, the door may be opened / closed according to its authenticity, or a door with a specific number preset as information on the object may be opened. Moreover, when the target object 90 is an industrial product material, you may make it fractionate according to the kind. Further, when the object 90 is electronic money or a prepaid card, an electronic cash register or the like may be operated according to its authenticity and type.

  (5) Treating the fluorescence spectrum of the object to be detected from the object and the individual fluorescence spectrum of each information-presenting substance as a combination of fluorescence spectra at a plurality of times from the irradiation of electromagnetic waves, and distinguishing the fluorescence spectrum by time attenuation characteristics, etc. It may be.

  (6) In the above embodiment, whether or not the object fluorescence spectrum can be reproduced by the spectrum reproduction means 33, that is, the object fluorescence spectrum can be reproduced by combining the individual fluorescence spectra of the genuine information-presenting substances at the genuine blending ratio. The determination means 34 determines whether the object is true or not depending on whether or not the object fluorescence spectrum can be reproduced by the combination of the individual fluorescence spectra. The authenticity of the object may be determined based on whether or not there is information regarding the object stored in association with the type of the information presentation substance and the mixing ratio.

  Specifically, the object information search means 36 searches the object information storage means 35 based on the type and blending ratio of the information presenting substance used to reproduce the object fluorescence spectrum. If there is no information related to the object associated with the type and blending ratio of the presented substance, the object 90 is determined to be fake, and this object is determined to be genuine only if the associated information exists. You just have to do it.

  In this way, whether or not the object fluorescence spectrum is based on the authentic blending ratio of the authentic information-presenting substance by performing an operation of registering information about the object in advance for an authentic object. In addition to the determination criterion, the determination criterion whether the combination is a specific combination registered in advance is provided twice, and it is possible to more reliably determine the authenticity of the object.

  This application is accompanied by the priority claim of Japanese Patent Application No. 2003-401291, filed on December 1, 2003, and the disclosure thereof constitutes a part of this application as it is. .

  The terms and explanations used here are used to describe the embodiments according to the present invention, and the present invention is not limited thereto. The present invention allows any design changes within the scope of the claims without departing from the spirit thereof.

  As described above, according to the present invention, it is possible to provide an authentication method and apparatus for determining the authenticity of various objects such as brand products, foods, and industrial products.

Claims (7)

An authentication method for determining the authenticity of an object to which an information presenting substance is attached,
One or more elements that fluoresce when irradiated with electromagnetic waves in a specific wavelength range, compounds of two or more elements, or information-presenting substances that contain those elements or compounds With respect to the authentic information-presenting substance, a fluorescence spectrum emitted by each electromagnetic wave irradiation in a specific wavelength region is stored in advance as an individual fluorescence spectrum,
Irradiating the object with an electromagnetic wave in a specific wavelength region to detect a fluorescence spectrum emitted from the object as an object fluorescence spectrum;
Trying to reproduce the object fluorescence spectrum by combining the individual fluorescence spectra,
An authenticity determination method, wherein the authenticity of the object is determined based on whether the object fluorescence spectrum can be reproduced by a combination of the individual fluorescence spectra. The authenticity determination according to claim 1, wherein the reproduction of the object fluorescence spectrum is performed by searching for a combination of the individual fluorescence spectra that matches the object fluorescence spectrum in all of a predetermined wavelength region. Method. Of the relative blending ratios when combining the finite kinds of genuine information presenting substances, store the finite kinds of genuine blending ratios in advance,
The authenticity determination method according to claim 1 or 2, wherein the reproduction of the fluorescence spectrum of the object is performed by combining the individual fluorescence spectra at the genuine blending ratio. Among the finite kinds of genuine information presenting substances, one or more kinds, and information related to each object in association with the relative blending ratio when combining them,
When the object fluorescence spectrum can be reproduced by a combination of the individual fluorescence spectra, information related to the object stored in association with the type and blending ratio of the information presenting substance at the time of reproduction can be output. The authenticity determination method according to any one of claims 1 to 3. An authenticity determination device for determining the authenticity of an object to which an information presenting substance is attached,
One or more elements that fluoresce when irradiated with electromagnetic waves in a specific wavelength range, compounds of two or more elements, or information-presenting substances that contain those elements or compounds Individual fluorescence spectrum storage means for preliminarily storing, as an individual fluorescence spectrum, a fluorescence spectrum that each radiates with respect to irradiation of electromagnetic waves in a specific wavelength region,
An object fluorescence spectrum detecting means for irradiating the object with electromagnetic waves in a specific wavelength region and detecting a fluorescence spectrum emitted from the object as an object fluorescence spectrum;
Spectrum reproduction means for attempting to reproduce the object fluorescence spectrum by a combination of the individual fluorescence spectra;
Whether or not the object fluorescence spectrum can be reproduced by the combination of the individual fluorescence spectra by the spectrum reproduction means, and determination means for determining whether the object is true or false;
An authenticity determination device comprising: An authentication system including a detection device terminal in the vicinity of an object provided with an information presenting substance, and a server capable of sending and receiving information via the detection device terminal and a network line,
The detection device terminal is
An object fluorescence spectrum detecting means for irradiating the object with electromagnetic waves in a specific wavelength region and detecting a fluorescence spectrum emitted from the object as an object fluorescence spectrum;
Transmitting means for transmitting information on the object fluorescence spectrum to the server;
Receiving means for receiving a predetermined response action command from the server;
With
The server
One or more elements that fluoresce when irradiated with electromagnetic waves in a specific wavelength range, compounds of two or more elements, or information-presenting substances that contain those elements or compounds Individual fluorescence spectrum storage means for preliminarily storing, as an individual fluorescence spectrum, a fluorescence spectrum that each radiates with respect to irradiation of electromagnetic waves in a specific wavelength region,
Receiving means for receiving information on the object fluorescence spectrum from the detection device terminal;
Spectrum reproduction means for attempting to reproduce the object fluorescence spectrum by a combination of the individual fluorescence spectra;
Whether or not the object fluorescence spectrum can be reproduced by the combination of the individual fluorescence spectra by the spectrum reproduction means, and determination means for determining whether the object is true or false;
Transmitting means for transmitting a predetermined response operation command according to the determination result to the detection device terminal;
An authentication system characterized by comprising: A detection device terminal that is in the vicinity of an object to which an information presenting substance is attached and that can send and receive information to and from a server via a network line
An object fluorescence spectrum detecting means for irradiating the object with electromagnetic waves in a specific wavelength region and detecting a fluorescence spectrum emitted from the object as an object fluorescence spectrum;
One or more elements that fluoresce when irradiated with electromagnetic waves in a specific wavelength range, compounds of two or more elements, or information-presenting substances that contain those elements or compounds With respect to the authentic information presenting substance, information on the object fluorescence spectrum is transmitted to a server that stores in advance the fluorescence spectrum emitted by each electromagnetic wave irradiation in a specific wavelength region as an individual fluorescence spectrum. Transmitting means for transmitting via,
Receiving means for determining whether the object is true or false based on whether or not the object fluorescence spectrum can be reproduced by a combination of individual fluorescence spectra, and receiving a predetermined response operation command determined according to the determination result from the server When,
A detection apparatus terminal comprising:

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