JP2008234537A - Forged merchandise detecting system and forged merchandise detecting method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To determine authenticity of merchandise using an RFID tag in which a user can write a merchandise identification number. <P>SOLUTION: This forged merchandise detecting system comprises a shipment management server 2 generating shipment data on shipped merchandise 12 when shipping the shipped merchandise 12 fitted with an RFID tag 14 recording a merchandise identification number, and updating a shipment data table 26 associating elements of a merchandise identification number set 34 with elements of a shipment data set 35 so that the shipment data corresponds to the merchandise identification number, and an arrival management server 3 transmitting to the shipment management server 2 a retrieval merchandise identification number recorded in the RFID tag 17 attached to arrival merchandise that has arrived on the arrival date and time. The shipment management server 2 transmits a retrieval result of retrieving the retrieval merchandise identification number from the shipment data table 26 to the arrival management server 3 when receiving the retrieval merchandise identification number from the arrival management server 3. The arrival management server determines the authenticity of the merchandise based on the retrieval result. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a counterfeit product detection system and a counterfeit product detection method, and more particularly to a counterfeit product detection system and a counterfeit product detection method for determining the authenticity of a product using an RFID tag.

  RFID (Radio Frequency Identification) is known as an automatic recognition technique using wireless communication. An RFID system generally includes an RFID tag and an RFID reader / writer. The RFID tag has data storage means, is attached to a product or the like, and is used to identify the product. The RFID reader / writer is used for reading data stored in the RFID tag and writing data to the storage means in the RFID tag. In general, a unique identification number is written in the RFID tag, and the RFID tag is used to individually identify a product to which the RFID tag is attached.

  Examples of the unique identification number include EPC (Electronic Product Code). As shown in FIG. 1, the EPC 100 includes a header part 101, a manager number part 102, an object class part 103, and a serial number part 104. The header portion 101 is used for designating the internal structure of the EPC 100 including the bit length of the EPC 100 and the like. The manager number portion 102 is used to identify the manufacturer of the product to which the RFID tag is attached. The object class portion 103 is used to identify the product type of the product to which the RFID tag is attached at the manufacturer. The serial number portion 104 is used to uniquely identify each product in the product type of the product of the product to which the RFID tag is attached.

  Such RFID tags have the feature that products can be uniquely identified individually and that they can access data without contact. Therefore, the use of RFID technology is expanding in various business scenes. is there. One application is the detection of counterfeit goods. As a method of detecting forgery using RFID, whether or not the product is forged by attaching an RFID tag to the product and reading a unique identification number written in the RFID tag. An example of a method for detecting the error is illustrated. However, this method is based on the premise that it is difficult to forge the RFID tag itself, that is, it is difficult to create a duplicate RFID tag having the same identification number as a certain RFID tag. That is, the unique identification number in the RFID tag is written in advance by the RFID tag manufacturer before or at the time of shipment of the RFID tag, and after the RFID tag user purchases the RFID tag, The premise is that an identification number cannot be written to a tag.

  The RFID tag manufacturer does not write a unique identification number before or at the time of shipment of the RFID tag, and the RFID tag user (ie, the manufacturer of the product to which the RFID tag is attached) purchases the RFID tag. RFID tags are known that allow you to write your own unique identification number. As such an RFID tag, an EPCglobal UHF Class 1 Generation 2 tag is exemplified, and its adoption in the distribution field or the like is rapidly progressing. When such an RFID tag is used, it is easy to duplicate a plurality of RFID tags having the same identification number, and thus there is a problem that it is difficult to use the RFID tag for forgery detection of a product.

  When using the EPCglobal UHF Class 1 Generation 2 tag, it is common to use EPC as the product identification number written in the RFID tag. When EPC is used as a product identification number, it is generally easy to know the values stored in the manager number part and the object class part, that is, the number indicating the manufacturer and product type of the product. Therefore, it is easy to illegally create an RFID tag having a product identification number corresponding to a product of a product manufacturer. It would be desirable to have a system for detecting counterfeit products using RFID tags that does not impair the convenience that RFID tag purchasers (ie, manufacturers of products that attach RFID tags) can manage their own unique identification numbers. It is rare.

JP 2000-148950 A JP 2001-283011 A JP 2002-145416 A JP 2006-222588 A Japanese Patent Laid-Open No. 04-130573

  An object of the present invention is to provide a forged product detection system and a forged product detection method for determining the authenticity of a product using an RFID tag on which a user can write a product identification number.

  In the following, means for solving the problems will be described using the reference numerals used in the best modes and embodiments for carrying out the invention in parentheses. This reference numeral is added to clarify the correspondence between the description of the claims and the description of the best mode for carrying out the invention / example, and is described in the claims. It should not be used to interpret the technical scope of the invention.

  The counterfeit product detection system (1) according to the present invention generates shipping data related to the shipping product (12) when shipping the shipping product (12) to which the RFID tag (14) on which the product identification number is recorded is shipped. A shipment management server (2) for updating a shipment data table (26) for associating elements of the product identification number set (34) with elements of the shipment data set (35) so that the shipment data corresponds to the product identification number; An arrival management server (3) for transmitting a search commodity identification number recorded in an RFID tag (17) attached to the arrival commodity received at daytime to the shipment management server (2). When the shipping management server (2) receives the search product identification number from the arrival management server (3), the shipping management server (2) transmits the search result for the search product identification number from the shipping data table (26) to the arrival management server (3). To do. The arrival management server (3) determines the authenticity of the product based on the search result.

  The shipment management server (2) according to the present invention generates a shipment data generation unit for generating shipment data related to the product (12) when shipping the product (12) to which the RFID tag (14) on which the product identification number is recorded is shipped. (22) and a shipping data storage unit that updates the shipping data table (26) that associates the elements of the product identification number set (34) with the elements of the shipping data set (35) so that the shipping data corresponds to the product identification number. (23) and a network communication unit (24) for receiving the search product identification number from the arrival management server (3). The shipment data storage unit (23) generates a search result obtained by searching for the search product identification number from the shipment data table (26). The network communication unit (24) transmits the search result to the arrival management server (3).

  The search result indicates the presence or absence of search shipment data corresponding to the search product identification number in the shipment data set (35).

  The search result indicates search shipment data corresponding to the search product identification number in the shipment data set (35). The shipping data indicates the shipping location where the product (12) was shipped and the shipping date and time when the product (12) was shipped.

  In the shipping data table (26), one of the first information (true) and the second information (false) is further associated with the element of the product identification number set (34). The search result indicates one of the first information (true) or the second information (false) corresponding to the search product identification number. The shipping data storage unit (23) updates the shipping data table (26) so that the second information (false) corresponds to the product identification number when shipping the product. When the search product identification number is searched from the product identification number set (34), the shipping data table (26) is updated so that the first information (true) corresponds to the search product identification number.

  The arrival management server (3) according to the present invention transmits to the shipment management server (2) the search item identification number recorded on the RFID tag (17) attached to the item (16) received at the arrival date and time, and the search item. A network communication unit (43) that receives the shipping location and the shipping date and time generated based on the identification number from the shipping management server (2), and an element of the shipping location set (47) as an element of the required delivery time set (48) Referring to the location-delivery time correspondence table (44) associated with the product (based on the magnitude relationship between the delivery time from the shipping date to the arrival date and the required delivery time corresponding to the shipping location in the required delivery time set) 16) a shipping data search unit (42) for determining authenticity.

  The arrival management server (3) according to the present invention transmits the search product identification number recorded on the RFID tag (17) attached to the product (16) to the shipment management server (2), and the shipment corresponding to the search product identification number. A network communication unit (43) that receives from the shipping management server (2) a search result indicating whether or not the shipping management server (2) records data, and the shipping management server (2) records the shipping data. When the search result indicates that the product (16) is not forged and the search result indicates that the shipment management server (2) does not record the shipment data, A shipping data search unit (42) for determining that the product (16) is forged;

  In the method for detecting counterfeit goods according to the present invention, when the shipment product (12) to which the RFID tag (14) on which the product identification number is recorded is shipped is shipped, the shipment management server (2) ships the shipment data related to the shipment product (12). And updating the shipping data table (26) that associates the elements of the product identification number set (34) with the elements of the shipping data set (35) so that the shipping data corresponds to the product identification number (S1 to S8). ) And a step of transmitting the search product identification number recorded in the RFID tag (14) attached to the received product (16) received at the arrival date and time to the shipping management server (2) (S11). To S15) and when the shipment management server (2) receives the search product identification number from the receipt management server (3), the shipment management server (2) A step (S16-20) of transmitting a search result obtained by searching for the search product identification number from the bull (26) to the arrival management server (3), and the arrival management server (3) of the arrival product (16) based on the search result. And steps for determining authenticity (S2 to S26).

  The search result indicates the presence or absence of search shipment data corresponding to the search product identification number in the shipment data set (35). The arrival management server (3) determines that the received commodity is a freight when the search result indicates that there is no search shipment data.

  The search result indicates search shipment data corresponding to the search product identification number in the shipment data set (35). The search shipment data indicates the shipping location where the received product (16) was shipped and the shipping date and time when the received product (16) was shipped. The arrival management server (3) refers to the location-delivery time correspondence table (44) that associates the elements of the shipping location set (47) with the elements of the required delivery time set (48), and delivers the delivery from the shipping date to the arrival date. The authenticity of the received product (16) is determined based on the magnitude relationship between the time and the required delivery time corresponding to the shipping location in the required delivery time set (48).

  In the shipping data table (26), one of the first information (true) and the second information (false) is further associated with the element of the product identification number set (34). The search result indicates one of the first information (true) or the second information (false) corresponding to the search product identification number. When the shipping management server (2) ships the received commodity (16), the shipping data table (26) is updated so that the second information (false) corresponds to the commodity identification number, and the commodity identification number set (34 ) Updates the shipping data table (26) so that the first information (true) corresponds to the search product identification number when the search product identification number is searched. The arrival management server (3) determines that the arrival commodity (16) is a freight when the search result indicates the first information (true).

  The counterfeit product detection system and the counterfeit product detection method according to the present invention can determine the authenticity of a product using an RFID tag on which a user can write a product identification number.

  An embodiment of a counterfeit commodity detection system according to the present invention will be described with reference to the drawings. In the counterfeit commodity detection system 1, as shown in FIG. 2, a shipment management server 2 and an arrival management server 3 are connected via a network 5 so that information can be transmitted in both directions. Examples of the network 5 include the Internet and a dedicated line. A plurality of shipment management servers 2 are provided in the counterfeit product detection system 1, and a plurality of shipment management servers 3 are provided in the counterfeit product detection system 1.

  The shipping management server 2 is used by the manufacturer 6. The manufacturer 6 is an entity that performs a business of manufacturing the product 12 and shipping the product 12 to the seller 7. The product 12 has an RFID tag 14 embedded therein. The RFID tag 14 can also be attached to the product 12 using methods other than being embedded in the product 12. For example, the RFID tag 14 can be attached to the product 12. The RFID tag 14 records a product identification number for identifying the product 12. The merchandise identification number is EPC, that is, it is composed of a header part, a manager number part, an object class part, and a serial number part. The header portion indicates information for designating the internal structure of the EPC including the bit length of the EPC. The manager number portion indicates information for identifying the manufacturer 6. The object class portion indicates information for identifying the product type of the product 12 in the manufacturer 6. The serial number portion indicates information for uniquely identifying each product in the product type identified by the object class portion. When the RFID tag 14 receives a radio wave transmitted from the outside, the RFID tag 14 uses the power obtained from the radio wave to update the product identification number based on the radio wave, or to generate a radio wave indicating the product identification number. Send back. An example of such an RFID tag 14 is an EPCglobal UHF Class 1 Generation 2 tag. The manufacturer 6 further includes an RFID reader / writer 11. The RFID reader / writer 11 has a reader identifier recorded therein. The reader identifier distinguishes the RFID reader / writer 11 from other RFID reader / writers. The RFID reader / writer 11 wirelessly communicates with the RFID tag 14 to read a product identification number recorded on the RFID tag 14 and generate RFID data. The RFID data indicates the reader identifier, the product identification number, and the shipping date and time. The shipment date / time indicates the date / time when the RFID reader / writer 11 reads the product identification number recorded in the RFID tag 14 through wireless communication with the RFID tag 14. Further, in response to a user operation, the RFID reader / writer 11 wirelessly communicates with the RFID tag 14 and records information input by the user in the RFID tag 14.

  The arrival management server 3 is used by the seller 7. The seller 7 is an entity that carries out a business of receiving the product 16 from the manufacturer 6 and selling the product 16 to consumers. The product 16 is attached with an RFID tag 17 in the same manner as the product 12. Similar to the RFID tag 14, the RFID tag 17 records a product identification number for identifying the product 16, and when receiving a radio wave transmitted from the outside, uses the power obtained from the radio wave to Based on this, the product identification number is updated or a radio wave indicating the product identification number is returned. The seller 7 further includes an RFID reader / writer 15. The RFID reader / writer 15 wirelessly communicates with the RFID tag 17 to read a product identification number recorded on the RFID tag 17 and outputs RFID data indicating the product identification number to the arrival management server 3. Here, the merchandise 16 is the same as the merchandise 12 (in this case, the RFID tag 17 is the same as the RFID tag 14). Yes.

  The shipping management server 2 is a computer, and includes a CPU, a storage device, an input device, and an output device that are not shown. The CPU executes a computer program installed in the shipment management server 2 and controls the storage device, input device, output device, communication device, and RFID reader / writer 11. The storage device records the computer program and temporarily records information generated by the CPU. The input device is operated by a user to generate information and outputs the information to the CPU. The output device includes a display and displays a screen generated by the CPU on the display. The communication device transmits information generated by the CPU via the network 5 to another information processing device, or outputs information transmitted from another information processing device via the network 5 to the CPU. .

  FIG. 3 shows the shipment management server 2. In the shipping management server 2, an RFID data receiving unit 21, a shipping data generating unit 22, a shipping data storage unit 23, and a network communication unit 24, which are computer programs, are installed.

  The RFID data receiving unit 21 receives RFID data generated by the RFID reader / writer 11 from the RFID reader / writer 11 when the RFID reader / writer 11 detects a product identification number recorded in the RFID tag 14.

  The shipping data generation unit 22 records a reader-location correspondence table 25 in a storage device. The shipment data generation unit 22 refers to the reader-location correspondence table 25 and generates shipment data based on the RFID data received by the RFID data reception unit 21.

  The shipping data storage unit 23 records a shipping data table 26 in a storage device. The shipping data storage unit 23 updates the shipping data table 26 based on the RFID data received by the RFID data receiving unit 21 and the shipping data generated by the shipping data generating unit 22. The shipment data storage unit 23 further refers to the shipment data table 26 and generates a search result based on the search request received by the network communication unit 24.

  The network communication unit 24 receives a search request from the arrival management server 3 via the network 5. When receiving the search request, the network communication unit 24 returns the search result generated by the shipping data storage unit 23 to the arrival management server 3.

  FIG. 4 shows the reader-location correspondence table 25. The reader-location correspondence table 25 associates the reader identifier 31 with the location identifier 32. That is, an arbitrary element in the set of reader identifiers 31 corresponds to one element in the set of location identifiers 32. The reader identifier 31 identifies the RFID reader / writer and indicates the reader identifier recorded in the RFID reader / writer. The location identifier 32 identifies the location and indicates the location where the RFID reader / writer identified by the reader identifier 31 is arranged.

  At this time, when the RFID data receiving unit 21 receives the RFID data, the shipping data generating unit 22 refers to the reader-location correspondence table 25 and determines the location identifier corresponding to the reader identifier indicated by the RFID data. Shipment data is generated by calculating from the set of identifiers 32. The shipping data indicates the location identifier, the shipping date and time, and the arrival confirmation flag. The shipping date / time indicates the shipping date / time indicated by the RFID data. The arrival confirmation flag indicates false.

  FIG. 5 shows the shipping data table 26. The shipment data table 26 associates the product identification number 34 with the shipment data 35. That is, an arbitrary element in the set made up of the product identification numbers 34 corresponds to one element in the set made up of the shipping data 35. The product identification number 34 identifies a product and indicates a product identification number assigned to the product, that is, a product identification number recorded on an RFID tag embedded in the product. The shipping data 35 indicates information related to the product identified by the product identification number 34, and indicates a shipping date and time 36, a shipping location 37, and an arrival confirmation flag 38. The shipping date and time 36 indicates the shipping date and time when the product identified by the product identification number 34 is shipped. The shipping location 37 indicates the location where the product identified by the product identification number 34 is shipped. When the product identified by the product identification number 34 is shipped, the product identification number is detected from the RFID tag embedded in the product. The location identifier is indicated, and the location identifier indicated by the shipping data generated by the shipping data generation unit 22 is indicated. The arrival confirmation flag 38 indicates one of true or false.

  At this time, when the RFID data is received by the RFID data receiving unit 21, the shipping data storage unit 23 indicates that the shipment data generated by the shipping data generation unit 22 in response to the RFID data is indicated by the RFID data. The shipping data table 26 is updated so as to correspond to the identification number.

  Further, when the search request is received by the network communication unit 24, the shipment data storage unit 23 refers to the shipment data table 26 and selects the product identification number indicated by the search request from the set of product identification numbers 34. Search and generate search results. The search result indicates that there is no corresponding shipment data when there is no product identification number in the set of product identification numbers 34, and when the product identification number is in the set of product identification numbers 34. The shipping data corresponding to the product identification number indicated by the search request from the set of the shipping data 35 is shown. When there is a product identification number in the set of product identification numbers 34, the shipping data storage unit 23 further sets the arrival confirmation flag corresponding to the product identification number in the set of arrival confirmation flags 38 to true. As shown, the shipping data table 26 is updated.

  The arrival management server 3 is a computer and includes a CPU, a storage device, an input device, and an output device which are not shown. The CPU executes a computer program installed in the arrival management server 3 to control the storage device, the input device, the output device, the communication device, and the RFID reader / writer 15. The storage device records the computer program and temporarily records information generated by the CPU. The input device is operated by a user to generate information and outputs the information to the CPU. The output device includes a display and displays a screen generated by the CPU on the display. The communication device transmits information generated by the CPU via the network 5 to another information processing device, or outputs information transmitted from another information processing device via the network 5 to the CPU. .

  FIG. 6 shows the arrival management server 3. In the arrival management server 3, an RFID data receiving unit 41, a shipping data search unit 42, and a network communication unit 43, which are computer programs, are installed.

  The RFID data receiving unit 41 detects the product identification number recorded in the RFID tag 17 using the RFID reader / writer 15 and receives the RFID data generated by the RFID reader / writer 15 from the RFID reader / writer 15.

  The shipment data search unit 42 records a location-delivery time correspondence table 44 in a storage device. When the RFID data is received by the RFID data receiving unit 41, the shipment data searching unit 42 generates a search request based on the RFID data. The search request indicates the product identification number indicated by the RFID data. Further, when the search result is received by the network communication unit 43, the shipping data search unit 42 determines the authenticity of the product 16 based on the search result, and displays the determination result on the display. At this time, the shipping data search unit 42 determines that the product 16 has been forged when the search result indicates that there is no shipping data. When the search result indicates shipment data, the shipment data search unit 42 refers to the location-delivery time correspondence table 44 and determines the authenticity of the product 16 based on the shipment data.

  The network communication unit 43 identifies the shipping management server 2 of the manufacturer 6 based on the manager number part of the product identification number detected by the RFID data receiving unit 41, and is generated by the shipping data search unit 42 via the network 5. The search request is transmitted to the shipping management server 2. The network communication unit 43 further receives from the shipping management server 2 the search result generated by the shipping management server 2 in response to the search request.

  FIG. 7 shows a location-delivery time correspondence table 44. The location-delivery time correspondence table 44 associates the shipping location 47 with the required delivery time 48. That is, an arbitrary element in the set including the shipping locations 47 corresponds to one element in the set including the required delivery time 48. The shipping location 47 identifies the shipping location, indicates the shipping location where the RFID reader / writer is arranged, and is expressed in the same format as the location identifier 32 of the reader-location correspondence table 25. The required delivery time 48 indicates the required delivery time required when delivering the product from the shipping location identified by the shipping location 47 to the location where the RFID reader / writer 15 is disposed. That is, a plurality of location-delivery time correspondence tables 44 are created for each RFID reader / writer having different locations.

  At this time, when the search result is received by the network communication unit 43 and the search result indicates the shipment data, the shipment data search unit 42 refers to the location-delivery time correspondence table 44 and stores the product 16. Judge authenticity. That is, when the search result is received by the network communication unit 43 and the search result indicates the shipment data, the shipment data search unit 42 refers to the location-delivery time correspondence table 44 and stores the shipment location 47. The shipping location indicated by the shipping data is retrieved from the set. The shipping data search unit 42 determines that the product 16 has been forged when there is no shipping location in the set of shipping locations 47. The shipping data search unit 42 indicates that the product 16 has been forged when the shipping location is included in the set of shipping locations 47 and the arrival confirmation flag indicated by the shipping data indicates true. judge. The shipping data search unit 42 refers to the location-delivery time correspondence table 44 when the shipping location is included in the set of shipping locations 47 and the arrival confirmation flag indicated by the shipping data indicates false. From the set of required delivery times 48, the required delivery time corresponding to the shipping location is calculated. When the delivery time from the shipment date and time indicated by the shipment data to the arrival date and time when the product 16 is received (that is, the current date and time) is larger than the required delivery time, the shipment data search unit 42 has forged the product 16. Judge that it is. The shipping data search unit 42 determines that the product 16 has not been forged when the delivery time is smaller than the required delivery time.

  The embodiment of the forged product detection method according to the present invention is executed by the forged product detection system 1 and includes an operation of shipping products and an operation of receiving products.

  FIG. 8 shows an operation for shipping the product. When manufacturing the product 12, the manufacturer 6 attaches the RFID tag 14 to the product 12 and records a product identification number for identifying the product 12 using the RFID reader / writer 11 on the RFID tag 14. The manufacturer 6 detects the product identification number from the RFID tag 14 using the RFID reader / writer 11 when shipping the product 12. In response to a user operation, the RFID reader / writer 11 wirelessly communicates with the RFID tag 14 to read a product identification number recorded on the RFID tag 14 and generate RFID data. When the RFID reader / writer 11 detects the product identification number recorded on the RFID tag 14, the RFID data receiver 21 receives the RFID data from the RFID reader / writer 11 (step S1).

  When the shipment data generation unit 22 receives the RFID data from the RFID data reception unit 21 (steps S2 and S3), the shipment data generation unit 22 refers to the reader-location correspondence table 25 (step S4) and corresponds to the reader identifier indicated by the RFID data. The location identifier is calculated from the set of location identifiers 32, and shipping data is generated (step S5). The shipping data indicates the location identifier, the shipping date and time, and the arrival confirmation flag. The shipping date / time indicates the shipping date / time indicated by the RFID data. The arrival confirmation flag indicates false.

  When the shipping data storage unit 23 receives the shipping data generated by the shipping data generation unit 22 (steps S6 and S7), the shipping data generation unit 22 displays the product identification number indicated by the RFID data received by the RFID data reception unit 21. The shipping data table 26 is updated so that the shipping data generated by the above corresponds (step S8).

  FIG. 9 shows an operation for receiving the product. When the merchandise 7 arrives, the merchant 7 detects the merchandise identification number from the RFID tag 17 attached to the merchandise 16 using the RFID reader / writer 15. In response to a user operation, the RFID reader / writer 15 wirelessly communicates with the RFID tag 17 to read a product identification number recorded on the RFID tag 17 and generate RFID data. The RFID data receiving unit 41 of the arrival management server 3 receives the RFID data generated by the RFID reader / writer 15 from the RFID reader / writer 15 when the RFID reader / writer 15 detects the product identification number recorded in the RFID tag 17. Receive (step S11).

  When the RFID data receiving unit 41 receives the RFID data (Steps S12 and S13), the shipping data search unit 42 generates a search request based on the RFID data (Step S14). The search request indicates the product identification number indicated by the RFID data. The network communication unit 43 transmits the search request to the shipment management server 2 via the network 5 (step S15).

  When the shipment data storage unit 23 of the shipment management server 2 receives a search request from the receipt management server 3 via the network communication unit 24 (step S16), the shipment data storage unit 23 refers to the shipment data table 26 and selects from among a set of product identification numbers 34. The product identification number indicated by the search request is searched (steps S17 and S18), and a search result is generated. The search result indicates that there is no corresponding shipment data when there is no product identification number in the set of product identification numbers 34, and when the product identification number is in the set of product identification numbers 34. The shipping data corresponding to the product identification number indicated by the search request from the set of the shipping data 35 is shown. When there is a product identification number in the set of product identification numbers 34, the shipping data storage unit 23 further sets the arrival confirmation flag corresponding to the product identification number in the set of arrival confirmation flags 38 to true. As shown, the shipping data table 26 is updated (step S21). The network communication unit 24 returns the search result to the arrival management server 3 (step S20).

  The shipping data search unit 42 of the arrival management server 3 receives the search result by the network communication unit 43 (step S22), and determines the authenticity of the product 16 based on the search result. That is, the shipping data search unit 42 determines that the product 16 has been forged when the search result indicates that there is no shipping data. When the search result indicates the shipping data, the shipping data search unit 42 refers to the location-delivery time correspondence table 44 (step S23), and selects the shipping location indicated by the shipping data from the set of shipping locations 47. Search for. The shipping data search unit 42 determines that the product 16 has been forged when there is no shipping location in the set of shipping locations 47. The shipping data search unit 42 indicates that the product 16 has been forged when the shipping location is included in the set of shipping locations 47 and the arrival confirmation flag indicated by the shipping data indicates true. judge. The shipping data search unit 42, when the shipping location is included in the set of shipping locations 47 and the arrival confirmation flag indicated by the shipping data indicates false, from the set of required delivery times 48, The required delivery time corresponding to the shipping location is calculated (step S24). The shipment data search unit 42 determines that the product 16 has been forged when the delivery time from the arrival date and time when the product 16 is received to the shipment date and time indicated by the shipment data is greater than the required delivery time ( Step S25). The shipping data search unit 42 determines that the product 16 has not been forged when the delivery time is equal to or less than the required delivery time. The shipment data search unit 42 displays the determination result on the display (step S26).

  FIG. 10 shows a state in which a product counterfeiter 51 different from the manufacturer 6 manufactures a counterfeit product 52. The counterfeit product 52 is attached with an RFID tag 53 in which a counterfeit product identification number is recorded. The counterfeit merchandise identification number indicates a meaningless number different from the merchandise identification number that identifies the merchandise shipped in the past by the manufacturer 6, or is a merchandise identification number that identifies the merchandise shipped in the past by the manufacturer 6. The same duplicate number is shown.

  When the forged product identification number indicates a meaningless number, the forged product identification number is not included in the set of the product identification numbers 34 in the shipping data table 26. Therefore, according to the forged product detection method according to the present invention, the search result indicates that the forged product identification number is not included in the set of the product identification numbers 34 in the shipping data table 26, and the arrival management server 3 It can be determined that 52 is forged.

  In the case where the counterfeit merchandise identification number indicates a duplicate number, the merchandise counterfeiter 51 reads and stores the merchandise identification number of the RFID tag attached to the legitimate merchandise, and stores this in the RFID tag 53 for counterfeit merchandise. This corresponds to the case of writing in and using. At this time, the counterfeit product 52 is received at a date after the date and time when the legitimate product is scheduled to be received, or the legitimate product is determined to be authentic using the counterfeit product detection system 1. For this reason, according to the forged goods detection method by this invention, the arrival management server 3 can determine with the goods 52 being forged.

  That is, according to the forged product detection method of the present invention, the authenticity of a product can be determined using an RFID tag that can rewrite information.

  In another embodiment of the forgery product detection method according to the present invention, the operation in step 25 in the above-described embodiment is replaced with another operation. According to the operation, the shipping data search unit 42 determines that the product 16 is forged when the search result indicates that the product identification number indicated by the search request is not in the set of product identification numbers 34. When the search result indicates that the product identification number indicated by the search request is in the set of product identification numbers 34, it is determined that the product 16 is not forged.

  According to such a counterfeit merchandise detection method, in the same manner as the counterfeit merchandise detection method in the above-described embodiment including step 25, there is no difference between the merchandise identification number for identifying the merchandise shipped in the past by the manufacturer 6. When the semantic number is written in the RFID tag, the product can be determined as a product, and the authenticity of the product can be determined using an RFID tag that can rewrite information. According to such a counterfeit merchandise detection method, the counterfeit merchandise detection system 1 does not need to include the location-delivery time correspondence table 44, and the shipment data table 26 stores the shipment data 35 in the merchandise identification number 34. There is no need to associate it, and it can be designed easily.

  In still another embodiment of the method for detecting forged goods according to the present invention, the operation in step 25 in the above-described embodiment is replaced with another operation. According to the operation, the shipping data search unit 42 determines that the product 16 has been forged when the search result indicates that there is no shipping data. When the search result indicates the shipping data, the shipping data search unit 42 refers to the location-delivery time correspondence table 44 and searches the shipping location indicated by the shipping data from the set of shipping locations 47. The shipping data search unit 42 determines that the product 16 has been forged when there is no shipping location in the set of shipping locations 47. When there is a shipping location in the set of shipping locations 47, the shipping data search unit 42 calculates the required delivery time corresponding to the shipping location from the set of required delivery times 48. The shipment data search unit 42 determines that the product 16 has been forged when the delivery time from the arrival date and time when the product 16 is received to the shipment date and time indicated by the shipment data is greater than the required delivery time.

  According to such a counterfeit merchandise detection method, in the same manner as the counterfeit merchandise detection method in the above-described embodiment including step 25, there is no difference between the merchandise identification number for identifying the merchandise shipped in the past by the manufacturer 6. When a semantic number is written on the RFID tag, or when a product identification number that identifies another product shipped in the past by the manufacturer 6 is written on the RFID tag, the product is determined to be a fake The authenticity of the product can be determined using an RFID tag that can be rewritten and information can be rewritten. According to such a counterfeit commodity detection method, the counterfeit commodity detection system 1 does not need to record the arrival confirmation flag 38 in the shipment data table 26 and can be designed easily.

  In still another embodiment of the method for detecting forged goods according to the present invention, the operation in step 25 in the above-described embodiment is replaced with another operation. According to the operation, the shipping data search unit 42 determines that the product 16 has been forged when the search result indicates that there is no shipping data. When the search result indicates shipment data, the shipment data search unit 42 determines that the product 16 has been forged when the arrival confirmation flag indicated by the shipment data indicates true. The shipment data search unit 42 determines that the product 16 has not been forged when the arrival confirmation flag indicated by the shipment data indicates false.

  According to such a counterfeit merchandise detection method, in the same manner as the counterfeit merchandise detection method in the above-described embodiment including step 25, there is no difference between the merchandise identification number for identifying the merchandise shipped in the past by the manufacturer 6. When the semantic number is written in the RFID tag, the product can be determined as a product, and the authenticity of the product can be determined using an RFID tag that can rewrite information. According to such a counterfeit product detection method, the counterfeit product detection system 1 does not need to include the location-delivery time correspondence table 44, and does not need to include the reader-location correspondence table 25. It is not necessary to record the shipping date and time 36 and the shipping location 37, and it can be designed easily.

FIG. 1 is a diagram showing the internal structure of the EPC. FIG. 2 is a block diagram showing an embodiment of a counterfeit product detection system according to the present invention. FIG. 3 is a block diagram showing an embodiment of a shipment management server according to the present invention. FIG. 4 is a table showing a reader-place correspondence table. FIG. 5 is a table showing a shipment data table. FIG. 6 is a block diagram showing an embodiment of the arrival management server according to the present invention. FIG. 7 is a table showing a location-delivery time correspondence table. FIG. 8 is a flowchart showing an operation for shipping a product. FIG. 9 is a flowchart showing an operation for receiving a product. FIG. 10 is a diagram illustrating a state in which the seller receives the counterfeit product sent by the product counterfeiter.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1: Counterfeit goods detection system 2: Shipment management server 3: Stock management server 5: Network 6: Manufacturer 7: Seller 11: RFID reader / writer 12: Merchandise 14: RFID tag 15: RFID reader / writer 16: Merchandise 17: RFID Tag 21: RFID data receiving unit 22: Shipment data generation unit 23: Shipment data storage unit 24: Network communication unit 25: Reader-location correspondence table 26: Shipment data table 31: Reader identifier 32: Location identifier 34: Product identification number 35 : Shipment data 36: Shipment date and time 37: Shipment location 38: Arrival confirmation flag 41: RFID data receiving unit 42: Shipment data search unit 43: Network communication unit 44: Location-delivery time correspondence table 47: Shipment location 48: Delivery time 51: Product counterfeiter 52: Counterfeit product 53: RFID Grayed

Claims (11)

An element of a set of product identification numbers so that when shipping a shipment product to which an RFID tag having a product identification number recorded is shipped, shipment data relating to the shipment product is generated, and the shipment data corresponds to the product identification number A shipment management server that updates a shipment data table that associates a shipment data set with an element,
A receipt management server that transmits a search merchandise identification number recorded in an RFID tag attached to a received merchandise received at the arrival date and time to a shipping management server;
When the shipping management server receives the search product identification number from the arrival management server, the shipping management server transmits a search result obtained by searching for the search product identification number from the shipping data table to the arrival management server,
The said arrival management server determines the authenticity of the said goods based on the said search result. A shipping data generation unit that generates shipping data related to the product when shipping the product to which the RFID tag on which the product identification number is recorded is shipped;
A shipping data storage unit that updates a shipping data table that associates the elements of the product identification number set with the elements of the shipping data set so that the shipping data corresponds to the product identification number;
A network communication unit that receives the search product identification number from the arrival management server,
The shipping data storage unit generates a search result obtained by searching the search product identification number from the shipping data table,
The network communication unit transmits the search result to the arrival management server. In claim 2,
The search result indicates whether there is search shipment data corresponding to the search product identification number in the shipment data set. In claim 2,
The search result indicates search shipment data corresponding to the search product identification number in the shipment data set,
The shipping data is
A shipping location where the product was shipped;
A shipping management server that indicates a shipping date and time when the product is shipped. In claim 2,
The shipment data table further associates one of the first information and the second information with the element of the product identification number set,
The search result indicates one of the first information and the second information corresponding to the search product identification number,
The shipping data storage unit
When shipping the product, the shipping data table is updated so that the second information corresponds to the product identification number,
A shipping management server that updates the shipping data table so that the first information corresponds to the search product identification number when the search product identification number is searched from the set of product identification numbers. A search product identification number recorded in an RFID tag attached to a product received at the arrival date and time is transmitted to a shipment management server, and a shipment location and a shipment date and time generated based on the search product identification number are transmitted to the shipment management server. A network communication unit to receive from,
Corresponding to the delivery time from the shipping date to the arrival date and the shipping location in the required delivery time set with reference to the location-delivery time correspondence table that associates the elements of the shipping location set with the elements of the required delivery time set An arrival management server comprising: a shipment data search unit that determines the authenticity of the product based on a magnitude relationship with a required delivery time. A search product identification number recorded on an RFID tag attached to a product is transmitted to a shipment management server, and a search result indicating whether or not the shipment management server records shipment data corresponding to the search product identification number is sent to the shipment A network communication unit that receives from the management server;
When the search result indicates that the shipping data is recorded by the shipping management server, it is determined that the product is not forged, and the shipping data is not recorded by the shipping management server. An arrival management server comprising: a shipment data search unit that determines that the product is forged when the search result indicates. When shipping a shipment product to which an RFID tag having a product identification number recorded is attached, a shipment management server generates shipment data related to the shipment product, and the product identification is performed so that the shipment data corresponds to the product identification number. Updating a shipping data table associating elements of a number set with elements of a shipping data set;
Sending the search product identification number recorded on the RFID tag attached to the received product received at the arrival date and time to the shipping management server,
When the shipping management server receives the search product identification number from the arrival management server, the shipping management server transmits a search result obtained by searching the search data identification number from the shipment data table to the arrival management server. When,
The counterfeit product detection method, comprising: a step of determining the authenticity of the received product based on the search result. In claim 8,
The search result indicates whether or not there is search shipment data corresponding to the search product identification number in the shipment data set,
The said arrival management server determines that the said arrival goods are fake goods, when the said search result shows that the said search shipping data does not exist. The forgery goods detection method. In claim 8,
The search result indicates search shipment data corresponding to the search product identification number in the shipment data set,
The search shipment data is
A shipping location where the received goods were shipped; and
Indicates the shipping date and time when the received product was shipped,
The arrival management server refers to a location-delivery time correspondence table associating elements of a shipping location set with elements of a required delivery time set, and includes a delivery time from the delivery date to the arrival date and time of the delivery required time set. A forgery product detection method for determining the authenticity of the received product based on a magnitude relationship with a delivery time corresponding to the shipping location. In claim 8,
The shipment data table further associates one of the first information and the second information with the element of the product identification number set,
The search result indicates one of the first information and the second information corresponding to the search product identification number,
When the shipping management server ships the received commodity, the shipping data table is updated so that the second information corresponds to the commodity identification number, and the retrieval commodity identification number is searched from the commodity identification number set. The shipping data table is updated so that the first information corresponds to the search product identification number,
The said arrival management server determines that the said arrival goods are fake goods when the said search result shows said 1st information. The forgery goods detection method.

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