JP2017010231A - Authenticity determination system, server device, and client device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an authenticity determination system for determining the authenticity of merchandise to make a reply with a determination result to a user, and for enabling a producer to acquire information on the circulation of merchandise without imposing a labor on the user.SOLUTION: An authenticity determination system 100 for determining the authenticity of merchandise in response to a request of a user includes a server device 10, and a client device 20 connected via the Internet 30 thereto. The client device 20 includes: input means 22, 29 for receiving the input of an identification ID 50 uniquely applied to each merchandise by the user; and transmission means for transmitting position information indicating the position of the client device 20 and the identification ID 50 to the server device 10. The server device 10 includes: a circulation database for recording the circulation information of the merchandise, and collates the identification ID 50 with the circulation database to determine the authenticity of the merchandise, and transmits a determination result to the client device 20, and specifies the location of the user on the basis of the position information.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an authenticity determination system, a server device, and a client device that determine the authenticity of a product.

  One of the management issues for manufacturers is the countermeasures against counterfeits that are different from genuine products produced by the company. In other words, the existence of cheap counterfeit products that are distributed to the market via illegal distribution channels will erode the genuine market, and if genuine low-quality counterfeit products are distributed to the market, the authenticity of the authentic product will be damaged. There is a fear.

  Therefore, as a measure for eliminating counterfeits from the market, an authenticity determination system that determines whether a product distributed in the market is a genuine product or a fake product has been used. As an example of a conventional authenticity determination system, a system is known in which a user inputs a serial number assigned to a product, compares it with a database storing information on authentic products, and determines authenticity (for example, Patent Document 1).

  In the system disclosed in Patent Document 1, a serial number attached to a product as a barcode is read by a mobile phone terminal, transmitted to a server device through a public communication network, and the server device performs authenticity determination to the mobile phone terminal. It is a system that answers the judgment result. By using this system, it is possible to determine whether the product obtained by the user is genuine or fake. However, it is impossible for the producer to know where the product is located and what distribution route it has followed. In other words, the information that the producer can obtain with this system is limited to the fact that counterfeit goods are in circulation, and it is not known where and how much counterfeit goods have occurred. For this reason, there is a problem that it is difficult to take a specific countermeasure against counterfeiting based on this system.

  On the other hand, there is also known a system that collects information on the location of a product by making authenticity determination and allowing a user to input information about the user himself (see, for example, Patent Document 2).

  In the system disclosed in Patent Document 2, information on how a user has obtained a product and a code attached to the product are input to the terminal device by the user and transmitted to the server device through the public communication network. This is a system in which the server device performs authenticity determination and collects information about the user.

  By using this system, the user can determine whether the product he / she has is genuine or fake, and the producer can acquire information on the distribution of the product. However, in this system, the success or failure of acquisition of information relating to the distribution of goods is left to the user's input, so if the user neglects to input information, the producer cannot obtain information relating to the distribution of the goods. There was a problem.

JP 2007-299179 A JP 2014-48927 A

  The present invention has been made in view of the above-described problems, and performs information on authenticity of a product, answers the result of the determination to the user, and information on the distribution of the product by the producer without imposing a burden on the user. It is an object of the present invention to provide an authentication system that can obtain the above.

  The present invention has been made to solve the above problems, and the invention according to claim 1 is an authenticity determination system that determines the authenticity of a product in response to a user's request and answers the determination result. A server device and a client device connected to the server device via the Internet, wherein the client device accepts an input of an identification ID uniquely assigned to each product by the user. And transmission means for transmitting the position information indicating the position of the client device and the identification ID to the server device, wherein the server device distributes the identification ID and the product distribution information to which the identification ID is assigned. The authenticity of the product is determined by comparing the distribution database recorded in association with the identification ID transmitted from the client device and the distribution database. Authenticity determining means, reply means for transmitting the determination result by the authenticity determining means to the client device, and location specifying means for specifying the location of the user based on the location information transmitted from the client device. This is an authentication system characterized by this.

  According to a second aspect of the present invention, the date and time when the identification ID is transmitted from the client device, the location specified by the location specifying unit, and the determination result by the authenticity determining unit are recorded in association with each other. The authenticity determination system according to claim 1, wherein the server device further includes determination result recording means.

  According to a third aspect of the present invention, the client device further has a communication function corresponding to a wireless communication method, and the location information is specified based on information of a base station to which the client device is wirelessly connected. The authenticity determination system according to claim 1 or 2, characterized in that:

  The invention according to claim 4 is characterized in that the client device further has a GPS reception function, and the position information is specified based on a signal received from a GPS satellite. The authenticity determination system according to the above.

  The invention according to claim 5 is characterized in that the identification ID is assigned to a product as a barcode, and the input means receives the input of the identification ID by reading the barcode of the product. Item 5. The authenticity determination system according to Item 3 or 4.

  The invention according to claim 6 is a server device that determines the authenticity of a product in response to a request from a user and transmits a determination result to a client device connected via the Internet, and is uniquely assigned to each product. A distribution database in which the identification ID and the distribution information of the product to which the identification ID is assigned are recorded in association with each other, and the identification ID input to the client device by the user and received via the Internet and the distribution database And authenticating means for determining the authenticity of the product, reply means for transmitting the determination result by the authenticity determining means to the client device, and position information indicating the position of the client device from the client device to the Internet. And a location specifying means for specifying the location of the user based on the location information. DOO is a server apparatus according to claim.

  According to the seventh aspect of the present invention, a server device that stores a distribution database in which an identification ID uniquely assigned to each product and the distribution information of the product to which the identification ID is assigned is recorded in association with each other via the Internet. Transmission means for receiving the identification ID input by the user, and transmitting the position information indicating the position of the client apparatus and the identification ID to the server apparatus. A client device, wherein the server device receives a determination result obtained by comparing the identification ID with the distribution database to determine the authenticity of the product.

  According to the first aspect of the present invention, it is possible to determine the authenticity of a product in response to a user's request, answer the determination result, and acquire information on the user's location.

  According to the second aspect of the present invention, the date and time when the user requested the authenticity determination, the authenticity determination result of the product, and the information on the location of the user are recorded, thereby storing the distribution information of the genuine product and the counterfeit product. be able to.

  According to the third aspect of the present invention, by using the wireless communication function provided in the client device, it is possible to specify the detailed position of the user and acquire a highly accurate location.

  According to the fourth aspect of the present invention, by using the GPS reception function provided in the client device, it is possible to specify the location of the details of the user and obtain a location with high accuracy.

  According to the fifth aspect of the present invention, by moving the client device to the vicinity of the product, reading the barcode attached to the product and transmitting the identification ID as it is, the detailed position of the user can be obtained with a simple operation. Can be identified and a highly accurate location can be obtained.

It is a principal block diagram of the authenticity determination system which concerns on this invention. It is a table which shows an example of the distribution database stored in the server apparatus of the authenticity determination system which concerns on this invention. It is a block diagram of the authenticity determination system which concerns on this invention. It is a flowchart which shows the procedure of the process which the authenticity determination system which concerns on this invention performs. It is a table which shows an example of the authenticity database recorded by the determination result recording means of the authenticity determination system which concerns on this invention. FIG. 6 is an example of an analysis result based on the authentic database according to FIG. 5, and is a diagram visualizing the distribution and scale of counterfeits distributed in the world.

  Next, an embodiment of an authenticity determination system to which the present invention is applied will be described with reference to the drawings. The embodiments described below are preferred embodiments of the present invention, and thus various technically preferable limitations are given. However, the scope of the present invention is particularly limited in the following description. As long as there is no description of the effect, it is not restricted to these aspects.

  The authenticity determination system according to the present invention will be described with reference to FIGS. FIG. 1 is a main configuration diagram of an authenticity determination system according to the present invention. FIG. 2 is a table showing an example of a distribution database stored in the server device of the authentication system according to the present invention. FIG. 3 is a block diagram of the authenticity determination system according to the present invention. FIG. 4 is a flowchart showing a procedure of processing performed by the authentication system according to the present invention. FIG. 5 is a table showing an example of an authenticity database recorded by the determination result recording means of the authenticity determination system according to the present invention. FIG. 6 is an example of an analysis result based on the authentic database according to FIG. 5, and is a diagram visualizing the distribution and scale of counterfeits distributed in the world.

  First, main components of the authentication system according to the present invention will be described with reference to FIG. The authenticity determination system 100 indicated by reference numeral 100 is configured such that the producer of the product makes an authenticity determination based on the request of the consumer / trader of the product and answers the authentication / determination result to the consumer / trader. . The authenticity determination system 100 includes, as main components, a server device 10 used by a product producer and a client device 20 used by a product consumer / trader. The server device 10 and the client device 20 are connected to the Internet 30 and configured to be able to communicate with each other. In this authenticity determination system 100, the identification ID 50 assigned to the product 90 is input to the client device 20 by the user, the authenticity of the product 90 is determined by the server device 10, and the determination result is sent via the Internet 30 to the client device 20. Configured to be sent to.

  The authenticity determination system 100 illustrated in FIG. 1 includes a plurality of different types of client devices 20. The client device 20a is a fixed terminal and is connected to the Internet 30 by wire. The client device 20b is a portable terminal, and is connected to the Internet 30 via the base station 31 by mobile communication that is one of wireless communication methods. The client device 20c is also a mobile terminal, but is connected to the Internet 30 via an access point 32 (also called a base station) by a wireless LAN that is one of the wireless communication systems. The client devices 20b and 20c, which are portable terminals, have a GPS (Global Positioning System) function, and are configured to be able to measure the current location by a known method by receiving a GPS satellite signal (not shown).

  A cloud server 41 is connected to the Internet 30. The cloud server 41 has information on the position (latitude / longitude) of the base station 31, information on the position (latitude / longitude) of the access point 32, and information on the correspondence between the IP address and the position (latitude / longitude). In response to a request from the server device 10 or the client device 20, the location information of each device is answered via the Internet 30. As a standardized function for acquiring position information, W3C Geolocation API (Application Programming Interface) is known, and it is possible to acquire position information by an appropriate means by using this function. . The W3C Geolocation API is described in detail in “http://www.w3.org/TR/geolocation-API/”.

  Next, the client device 20 will be described in detail. Each of the client devices 20a, 20b, and 20c shown in FIG. 1 includes an input unit for a user to input an identification ID attached to a product. The client device 20a that is a fixed terminal uses the keyboard 29 as an input unit. The client devices 20b and 20c, which are portable terminals, include a barcode reader 22 as input means.

  When the client device 20a is used, the user inputs the identification ID 50a attached to the product 90a as a character using the keyboard 29 and requests authentication. When the client device 20b is used, the user inputs the identification ID 50b attached to the product 90b as a one-dimensional barcode using the barcode reader 22, and requests authentication. When the client device 20c is used, the user inputs the identification ID 50c attached to the product 90c as a two-dimensional barcode using the barcode reader 22, and requests authentication.

  It is also possible to provide a bar code reader in the client device 20a, which is a fixed terminal, and to input authentication IDs 50b and 50c attached as bar codes and request authentication. It is also possible to provide a character input means such as a keyboard in the client devices 20b and 20c, which are portable terminals, and input the identification ID 50a attached as a character to request authentication.

  Next, the server device 10 will be described in detail. The server device 10 shown in FIG. 1 is connected to the Internet 30 and configured to exchange information with the client device 20 and the cloud server 41. The server device 10 stores a distribution database 6, which is a database related to merchandise distribution information, and the server device 10 performs authenticity determination based on the distribution database 6.

  Here, the distribution database 6 will be described with reference to FIG. FIG. 2 is a table showing an example of the distribution database 6 stored in the server device 10 of the authenticity determination system 100. The distribution database 6 shown in FIG. 2 has six columns, and data stored in one row is data associated with each other.

  In a column 61, data of product identification ID is described. Identification ID is uniquely given for every goods, and there is no duplication. In the column 62, the product names of the products are described. The column 63 describes the lot number of the product, and this lot number is used for quality control. The column 64 describes the shipping destination of the product, and indicates where the product is shipped. In the column 64 shown in FIG. 6, the company name is described as the shipping destination, but it is also possible to describe the country or city. The column 65 describes the shipping date when the product is shipped. Column 66 is a remarks column that is used arbitrarily.

  The distribution database 6 stores information on identification IDs, product names, lot numbers, shipping destinations, and shipping dates for all products shipped from producers (that is, genuine products). Therefore, a product having an identification ID not listed in the distribution database 6 is a fake that is not a genuine product.

  Further, if the current location of the product is known, it is possible to grasp how the product has moved after being shipped to the shipping destination by collating with the distribution database 6. In addition, by comparing with the elapsed time from the shipping date, it can be understood how much distance and how much time the product has moved.

  The distribution database 6 is created by the producer of the product, and is created by inputting the identification ID, the product name, the lot number, the shipping destination, and the shipping date each time the product is shipped. As a method for inputting these pieces of information, an appropriate method such as a method for inputting each item for each product or a method for inputting the information for each lot can be selected.

  The identification ID is uniquely assigned to each product and does not overlap. In order to prevent a third party from duplicating the identification ID, giving it to a fake and distributing it, it is desirable that the identification ID is encrypted. For this reason, it is preferable to encrypt the serial number unique to the product to obtain the identification ID. Further, since the identification ID is uniquely assigned to each product, it is preferable to create one by one using an on-demand label writer and attach it to the product. As a result, the distribution database 6 can be easily created for small-quantity products. As shown in FIG. 1, the identification ID can adopt an appropriate format such as a character, a one-dimensional barcode, or a two-dimensional barcode.

  Next, configurations and functions of the server device 10 and the client device 20 will be described with reference to FIG. FIG. 3 is a block diagram of the authenticity determination system 100.

  The server device 10 includes a storage device 11, a communication unit 12, and a control unit 13, which are configured to exchange information with each other via a bus 14. The storage device 11 stores programs and data necessary for controlling the entire server device 10. The storage device 11 stores the distribution database 6 described above. The storage device 11 also stores map data describing the correspondence between latitude / longitude and country / city. Furthermore, information received from the client device 20 and information received from the cloud server 41 are also stored in the storage device 11, and the result of authenticity determination is also stored in the storage device 11.

  The communication unit 12 is configured to receive information transmitted from the client device 20 and the cloud server 41 via the Internet 30 and to transmit information stored in the storage device 11. Although the illustrated communication unit 12 is connected to the Internet 30 by wire, it may be configured as a wireless communication unit and wirelessly connected instead of the wire. The control unit 13 controls the entire server device 10 using programs and data stored in the storage device 11.

  Next, the client device 20 includes a storage device 21, a barcode reader 22, a control unit 23, an input device 24, a GPS reception unit 25, a communication unit 26, and a display device 27, which exchange information via a bus 28. It is configured to be replaceable. The storage device 21 stores programs and data necessary for controlling the entire client device 20. The information transmitted from the server device 10 and the information transmitted from the cloud server 41 are stored in the storage device 21.

  As shown in FIG. 1, the barcode reader 22 is provided so as to be able to read a one-dimensional barcode (client device 20b in FIG. 1) or a two-dimensional barcode (client device 20c in FIG. 1). This information is transmitted to the bus 28. The barcode reader 22 can be configured by combining a camera and image processing software instead of being configured as a dedicated device.

  The control unit 23 controls the entire client device 20 using programs and data stored in the storage device 21. The input device 24 is a device that accepts input from a user, and can be configured to accept voice input in addition to character input such as the keyboard 29 in the client device 20a shown in FIG. One or both of the barcode reader 22 and the input device 24 can be provided. Both the barcode reader 22 and the input device 24 are one form of input means for receiving an identification ID input by a user.

  The GPS receiving unit 25 receives a signal from a GPS satellite. Based on the signal received by the GPS receiving unit 25, the control unit 23 can calculate the position (latitude / longitude) of the client device 20 by calculating using a known method.

  The communication unit 26 is configured to receive information transmitted from the server device 10 and the cloud server 41 via the Internet 30 and to transmit information stored in the storage device 21 and information held by the client device 20. ing. The illustrated communication unit 26 is connected to the Internet 30 by wire, but may be configured as a wireless communication unit and wirelessly connected instead of the wire.

  Specifically, the information transmitted from the communication unit 26 to the Internet 30 includes the IP address of the client device 20 and the position (latitude / longitude) obtained by the GPS function. In addition, when the communication unit 26 is configured as a wireless communication unit, information on the connection destination base station and access point is transmitted to the Internet 30, and the position (latitude / longitude) specified based on the information is transmitted to the cloud server 41. Receive from.

  The display device 27 is a device that displays information held by the client device 20 to the user, and the information input by the input device 24 and the authentication result transmitted from the server device 10 are displayed on the display device 27. The user knows the authenticity determination result of the product via the display device 27.

  Note that not all the client devices 20 need to include all the elements illustrated in FIG. 3. For example, the client device 20 a illustrated in FIG. 1 is a fixed terminal and does not include the barcode reader 22 and the GPS receiving unit 25.

  Note that the calculation to be performed as the authenticity determination system 100 may be performed by either the control unit 13 of the server device 10 or the control unit 23 of the client device 20, and information necessary for the authenticity determination system 100 is as follows. It may be stored in either the storage device 11 or the storage device 21 of the client device 20.

  Moreover, the server apparatus 10 shown to FIG.1, 3 does not need to be a server apparatus which a producer owns, and the place to install is not ask | required. In other words, a hosting server can be used as the server device 10, and a cloud server can be used as the server device 10. Moreover, it can replace with the cloud server 41 shown to FIG.1, 3, and it can also comprise so that a producer may occupy the server apparatus which has the same function.

  Next, a series of processing procedures performed by the authenticity determination system 100 will be described with reference to FIG. FIG. 4 is a flowchart showing a procedure of processing performed by the authentication system 100 according to the present invention.

  The process executed by the authentication system 100 starts when the user requests authentication using the client device 20, and in the first step S11, the product identification ID is input from the input means of the client device 20. . When the identification ID is given to the product as characters (identification ID 50a of the product 90a shown in FIG. 1), it is input from the keyboard 29 (client device 20a shown in FIG. 1). Further, when the identification ID is given to the product as a barcode (identification IDs 50b and 50c of the products 90b and 90c shown in FIG. 1), they are input from the barcode reader 22 (client devices 20b and 20c shown in FIG. 1). ). In addition, when a voice input device is employed as the input device 24, it is possible to input by voice. In addition, the input of identification ID can employ | adopt appropriate forms, such as the form which a user inputs on a web screen, and the form input by running an application.

  In step S <b> 12, the identification ID and position information are transmitted to the server device 10. The identification ID is input in step S11. The position information is information indicating the position of the client device 20, and the IP address of the client device 20, the information of the base station / access point to which the client device 20 is wirelessly connected, the latitude / longitude measured by the GPS function, or the IP Latitude / longitude obtained based on address or base station / access point information.

  In addition, instead of transmitting the IP address or base station / access point information to the server apparatus 10 as the position information transmitted from the client apparatus 20 to the server apparatus 10 in step S12, the information is temporarily stored in the cloud server 41. It is also possible to configure to send the latitude / longitude to the server device 10 after inquiring and obtaining the latitude / longitude.

  In step S13, the authenticity determination means of the server device 10 performs authenticity determination. The authenticity determination means is configured such that the control unit 13 of the server device 10 collates the received identification ID with the distribution database 6 stored in the storage device 11. Since all genuine products are listed in the distribution database 6, if the received identification ID is listed in the distribution database 6, it is determined as a genuine product, and if it is not listed in the distribution database 6, it is determined as a fake. Further, if the authenticity determination is performed for one identification ID after the second time, even if the identification ID is listed in the distribution database 6, it can be determined as a fake. This is because there is a possibility that the identification ID for which the authenticity determination is requested for the second time or later is illegally copied from the genuine identification ID. Any known method can be adopted as a method of authenticity determination performed by the authenticity determination means.

  In step S14, the location specifying means of the server device 10 specifies the location of the user based on the received position information. The location specifying means is configured such that the control unit 13 of the server device 10 collates the received position information with the map data stored in the storage device 11 or the cloud server 41. When the location information is the IP address of the client device 20, by querying the IP address to the cloud server 41 via the Internet 30, the latitude / longitude of the client device 20 used by the user and the country / city where the user is located can be determined. Identified. If the location information is information related to the base station or access point to which the client device 20 is connected, the cloud server 41 is inquired via the Internet 30 to obtain the latitude / longitude of the client device 20, and the latitude / longitude A country / city is identified from the longitude using map data. When the position information is latitude / longitude measured by the GPS function of the client device 20, the country / city is specified from the latitude / longitude using map data. Note that, when the above-described W3C Geolocation API is used, any means of the client device 20 is appropriately selected to obtain latitude / longitude as position information. In step S14, the corresponding country / A city is identified.

  Note that the above-described location specifying means is configured to be held by the server device 10, but it is also possible to configure the client device 20 to have location specifying means. In other words, the client device 20 may be configured to specify the location (country / city) of the user and transmit the information to the server device 10.

  In step S15, the authenticity determination result obtained in step S13 is transmitted to the client device 20. The client device 20 displays the transmitted authentication result on the display device 27 to inform the user. Thus, the user can know whether the product is a genuine product or a fake product.

  In step S <b> 16, the determination result recording unit of the server device 10 records the product identification ID, the date and time when the identification ID is transmitted from the client device 20, and the location of the user in a form associated with each other as an authentic database. The determination result recording means is configured such that the control unit 13 of the server device 10 writes the authentic database in the storage device 11 while referring to the storage device 11. In the authentic database, not only information on genuine products but also information on counterfeits are written. An example of the authentic database format will be described later. A series of processes started when the user requests authentication by using the client device 20 ends in this step S16.

  Next, the authentic database will be described with reference to FIG. FIG. 5 is a table showing an example of the format of the authenticity database recorded by the determination result recording means of the authenticity determination system 100. The authentic database 7 shown in FIG. 5 has eight columns, and data stored in one row is data associated with each other.

  The column 71 describes the date and time when the product identification ID is transmitted from the client device 20. In a column 72, the IP address of the client device 20 is described. If no IP address is used as position information, the column 72 is not necessary. A column 73 describes the position (latitude / longitude) of the client device 20. If the location is specified without using the position (latitude / longitude) of the client device, the column 73 is not necessary. The column 74 describes the location (country / city) of the user. The description in the illustrated column 74 is limited to the country and city information, but it is also possible to make the description narrowed down to a more detailed location. In a column 75, an identification ID of a product transmitted from the client device 20 is described. In addition, when the same identification ID is transmitted many times, it is added to another line every time it is transmitted. The fact that the same identification ID is transmitted a plurality of times indicates the possibility that the genuine identification ID is illegally duplicated and assigned to a fake and distributed in large quantities. The column 76 describes the authentication result. A column 77 describes the shipping destination of the product, and a column 78 describes the shipping date of the product. The information in the columns 77 and 78 is described only when the product related to the identification ID described in the column 75 is a genuine product (when the authenticity determination result in the column 76 is authentic), and is blank when the product is a fake. Information in columns 77 and 78 is stored with reference to a distribution database.

  Next, analysis using the authentic database 7 will be described with reference to FIG. FIG. 6 is an example of an analysis result based on the authentic database 7 according to FIG. 5, and is a diagram visualizing the distribution and scale of fakes generated in the world.

  The figure shown in FIG. 6 is a figure which shows the distribution | circulation state of the fake in the world, and the circle C arrange | positioned on the world map M has shown the place and scale in which the fake generate | occur | produced. That is, the position of the circle C indicates the position of the city where the fake identification ID is transmitted, and the size of the circle C indicates the number of times the fake identification ID is transmitted. According to this figure, it is possible to grasp at a glance where and how much fake is distributed in the world. It should be noted that all information necessary for creating this figure is described in the authentic database 7 shown in FIG.

  Although FIG. 6 is a diagram showing the distribution status of counterfeits, in addition to this, the ratio of genuine products to counterfeits, the change in the number of counterfeits generated over time, the distribution channels of genuine products, and genuine products are the final consumers. Various useful data can be obtained by analyzing the authentic database, such as the time taken to reach the point. Using this analysis result, it is possible to make use of it for production management and inventory management of products.

100 authentication system 10 server device 11 storage device 12 communication unit (wireless communication unit)
13 Controller 14 Buses 20, 20a, 20b, 20c Client device 21 Storage device 22 Bar code reader (input means)
23 control unit 24 input device (input means)
25 GPS receiver 26 Communication unit (wireless communication unit)
27 Display device 28 Bus 29 Keyboard (input means)
30 Internet 31 Base station 32 Access point 41 Cloud server 50, 50a, 50b, 50c Identification ID
6 distribution database 7 authentic database 90, 90a, 90b, 90c

Claims (7)

An authenticity determination system that determines the authenticity of a product according to a user's request and answers the determination result,
A server device and a client device connected to the server device via the Internet,
The client device is
Input means for receiving an identification ID uniquely assigned to each product by the user;
Transmission means for transmitting the position information indicating the position of the client device and the identification ID to the server device;
The server device
A distribution database that records the identification ID and the distribution information of the product to which the identification ID is assigned in association with each other;
Authenticity determination means for verifying the authenticity of the product by comparing the identification ID transmitted from the client device with the distribution database;
Answering means for transmitting the determination result by the authenticity determining means to the client device;
An authenticity determination system comprising: location specifying means for specifying the location of the user based on the location information transmitted from the client device. A determination result recording means for recording the date and time when the identification ID is transmitted from the client device, the location specified by the location specifying means, and the determination result by the authenticity determination means in association with each other; The authenticity determination system according to claim 1, further comprising a server device. The client device further has a communication function corresponding to a wireless communication method,
The authenticity determination system according to claim 1 or 2, wherein the position information is specified based on information of a base station to which the client device is wirelessly connected. The client device further has a GPS reception function,
The authenticity determination system according to any one of claims 1 to 3, wherein the position information is specified based on a signal received from a GPS satellite. The identification ID is given to the product as a barcode,
The authenticity determination system according to claim 3 or 4, wherein the input unit receives an input of the identification ID by reading the barcode of a product. A server device that determines the authenticity of a product in response to a user request and transmits a determination result to a client device connected via the Internet,
A distribution database in which the identification ID uniquely assigned to each product and the distribution information of the product to which the identification ID is assigned are recorded in association with each other;
Authenticity determination means for verifying the authenticity of the product by comparing the identification ID input to the client device by the user and received via the Internet with the distribution database;
Answering means for transmitting the determination result by the authenticity determining means to the client device;
A server device comprising location specifying means for receiving location information indicating the location of the client device from the client device via the Internet and specifying the location of the user based on the location information. A client device connected via the Internet to a server device that stores a distribution database in which an identification ID uniquely assigned to each product and distribution information of the product to which the identification ID is assigned are recorded in association with each other. ,
Input means for receiving the identification ID input by the user;
Transmission means for transmitting position information indicating the position of the client device and the identification ID to the server device;
The client device, wherein the server device receives the determination result obtained by comparing the identification ID with the distribution database to determine the authenticity of the product.