KR20210001155A - RFID based genuine product certification service system using cipher update algorithm of certification key for document forgery prevention to use distributed ledger stored in RFID key storage - Google Patents

Abstract

Disclosed is a wireless electronic tag-based genuine product certification service system using a certification key password update algorithm for document forgery prevention that uses a distributed ledger as RFID key storage in which a blockchain concept is introduced to store a 13.56 RFID tag value and a certification key in an RFID tag chip attached to a document, and a hash function is used to update the certification key for each certification attempt. The genuine product certification service system comprises: a document to which a 13.56 MHz RFID tag is attached; a genuine product certification server to issue a producer qualification key to a document producer when a blockchain producer qualification request is received from the document producer, and certify a document original by using a certification key and an RFID tag identification number for each 13.56MHz RFID tag tagged on the document to which a 13.56MHz RFID tag is attached; and a smartphone having a genuine product certification application of a consumer having a 13.56MHz RFID tag reader to request document original certification of a unique 13.56MHz RFID tag attached to a document registered in a distributed ledger of RFID key storage of the genuine product certification server, receive a document original certification result in response to the request, and use a certification key password update algorithm for document forgery prevention periodically or when document original certification is attempted to use a hash function to store an updated certification key of a corresponding 13.56MHz RFID tag in the distributed ledger of the RFID key storage of the genuine product certification server and a 13.56MHz RFID tag chip of a corresponding document at the same time.

Description

(RFID based genuine product certification service system using cipher update algorithm of certification key for document forgery prevention to prevent forgery and alteration of documents using distributed ledger as RFID key storage) use distributed ledger stored in RFID key storage}

The present invention relates to a wireless electronic tag-based genuine authentication service system using an authentication key encryption update algorithm for preventing document forgery, and in more detail, 13.56 RFID tag identification on an RFID tag chip attached to a document by introducing a block chain concept. The number and authentication key are stored and stored in the distributed ledger of the RFID key storage of the activation server, and, if necessary, are simultaneously stored in the distributed ledger of the document producer's document management server. Periodically, the authentication key is continuously updated and stored by generating a random number using a hash function using the authentication key password renewal algorithm (hashing algorithm) to prevent forgery, preventing document forgery and authenticating the original document. The present invention relates to a wireless electronic tag-based genuine product authentication service system using an authentication key encryption update algorithm for preventing document forgery and alteration using a distributed ledger as an RFID key storage.

RFID (wireless electronic tag) reads the tag information attached to the product using an RFID tag 10 containing unique information attached to the product and wireless communication technology in the 13.56 MHz or 900 MHz RFID frequency band. Is a system that transmits information recognized by the RFID reader 20 and the RFID reader 20 to an application of the host computer 30 through the RFID middleware.

2 is a block diagram of an existing 13.56 MHz RFID tag, an RFID reader, and a system.

RFID technology for product management is standardized in ISO/IEC JTC1 SC31, and Air Interface Protocol for each frequency between RFID reader and tag is defined in ISO/IEC 18000 series.

RFID frequencies are 135 kHz, 13.56 MHz, 433 MHz, and 860 to 960 MHz. 2.45 GHz band is used. The low-frequency 13.56MHz RFID system is used to recognize tags attached to products, and the recognition distance is only a few centimeters, and the high-frequency 900MHz UHF RFID system proposed and used by EPCGlobal can recognize up to 100m and can be used for distribution, logistics, and port containers. Used.

NFC Forum's Mobile RFID Convergence provides a mobile RFID information service using a mobile phone in the 13.56MHz RFID frequency band, and connects to the logistics distribution field (B2B, B2C) of the 900MHz RFID frequency band in the UHF band of EPCglobal. Are presented.

2 is a diagram showing the UHF 900 MHz band RFID frequency standard for each major country.

UHF band RFID frequency for each major country uses 902-928MHz ISM (Industrial, Scientific, and Medical) band as the RFID frequency band, and the occupied bandwidth of one channel is 500kHz and more than 50 channels are used. It uses 865-868MHz as the RFID frequency band, and the occupied bandwidth of one channel is limited to 200kHz, and there are only 15. Australia has an occupied bandwidth of 918-926MHz, 910-914MHz in Korea, similar to Europe, and Japan uses 950-956MHz.

Table 1 compares the functions of RFID tags and readers using 13.56 MHz and 900 MHz frequencies.

RFID 13.56 MHz 900 MHz leader Short distance within 10cm Long-distance recognition (~1m) tag -Inventory management, parking management, library book management
-Transportation card, financial card, smart card, ID card for ID card
-Mobile RFID information service using smartphone -B2C distribution logistics, attaching RFID tags to B2B company products

The RFID reader and the RFID tag are composed of a forward link and a reverse link according to the transmission direction of information. The forward link transmits a command signal and a continuous wave (CW) signal that supplies power to the tag to obtain unique information of the tag from the RFID reader to the tag. The reverse link is a process until the tag reaches the tag signal through the RFID reader through a reverse scattering process based on the CW signal received from the RFID reader. The RFID tag consists of a tag chip and an antenna containing unique product information. According to the power supply method, it is classified into an active tag and a passive tag.

The active tag uses internal battery power and can collect information independently from the RFID reader. Since the battery is built-in, the price increases, and the size and weight are increased. When the battery's life expires, its useful life expires and its function as an RFID tag is lost.

The passive tag drives the tag chip by generating DC power from the RF signal received from the RFID reader. Communication between the passive tag and the RFID reader is asynchronous, and when there is a response request from the RFID reader, the passive tag transmits data through backscatter modulation. Passive tags do not have a separate power source and are supplied with driving power of the RFID tag by the power received from the RFID reader. Since the distance that can be supplied with power from the RFID reader is limited, the recognition distance is short and is driven with low power.

Systems equipped with RFID tags and readers are applied in many fields such as product production management, inventory management, distribution, sales management, logistics, ports, import and export customs clearance, pharmaceutical and pharmaceutical industries, medical devices, and defense ammunition management.

As a related prior art 1, in Patent Registration No. 10-1813658, "a wireless electronic tag-based genuine product authentication service system and method using a password update algorithm for preventing forgery and alteration" is registered.

As related prior art 2, in Patent Registration No. 10-0405828, "an apparatus and method for producing a document capable of preventing forgery and alteration, and an apparatus and method for authenticating the document" are registered. A barcode is generated based on information included in the document, and a watermark is also generated based on the information included in the document. The generated barcode and watermark are combined, and the combined barcode and watermark are inserted into the document to produce a document. When authenticating the produced document, the process of detecting the document and extracting the barcode inserted in the document, comparing the information contained in the extracted barcode with the information contained in the document, and also detecting the document and inserting it into the document The existing watermark is extracted and the information included in the extracted watermark is compared with the information included in the document. According to the present invention, it is possible to prevent forgery or alteration of a document produced online or offline during online or offline distribution, or to check whether or not the barcode itself is forged or altered.

As a related prior art 3, in Patent Registration No. 10-1535534, "a method for generating a document equipped with a forgery prevention means using a printer steganography technique and a method for confirming forgery of the document" is registered. Having printed document information and forgery preventing means, the forgery preventing means comprising a two-dimensional code having a data area and a plurality of halftone dots; The data area of the 2D code is a printer steganography consisting of a first data area in which document information is coded, and a hash value generated by a hash algorithm for encoding data of document information and a plurality of dots, and a coded second data area. It relates to a document equipped with a forgery prevention means using a technique, a method of generating this document, and a method of confirming forgery of this document.

In general, securities such as currency, checks, and bills are issued with the issuing institution such as a bank, the amount, and the date of occurrence, and the seal of the generating institution is stamped. Documents printed on a color printer, including securities, are printed with a unique mark of the printing device manufacturer to indicate the serial number or printing date. The unique mark is printed by repeating the same pattern with a plurality of fine dots, and is printed in pale yellow to make it difficult to identify with the naked eye. This is called steganography. For example, the pale yellow color of the Korean traditional color trademark (RGB:#F5F0C5, CMYK:4,2,27,0) or Songhwa color (RGB:#F8E77F, CMYK:4,4,62,0) can be cited. For reference, the black RGB code and CMYK code are #1D1E23 and "93,89,83,52" respectively.

1 is a view showing a forgery prevention means provided in a conventional document.

The document 200 provided with a forgery prevention means using a printer steganography technique includes document information that is the contents of the document and a forgery prevention means 210. The forgery prevention means 210 is provided by being printed on a blank portion of a document in which document information is not printed.

According to the type of the document, the issuing agency 201, the destination 203, the issuing date (205, title, content of the document (207), amount, etc. are recorded, and the personal seal of the issuing agency head is stamped (209)). , Document number 202, etc. are described.

As shown in FIG. 1, the forgery prevention means 210 provided in the document 200 includes a two-dimensional code (eg, a QR code), a plurality of dots 240, and a frame 217 surrounding the two-dimensional code. ). The two-dimensional code has a square shape and is composed of a positioning symbol 211, a reference cell 213, and a data area 215. The border 217 is separated from the 2D code and printed in a form surrounding the 2D code, so that a blank area 219 is formed between the 2D code and the border 217, and the plurality of halftone dots 240 are It is printed on the blank area 219 between the 2D code and the frame 217. The plurality of halftone dots 240 are arranged horizontally and vertically. The halftone dot 240 is printed in a pale yellow color, such as a unique mark of a securities so that it is not identified with the naked eye. When the forgery preventing means 210 is photographed or scanned into an image, the size of the halftone point 240 is determined so that only the halftone dot 240 is separated after labeling, when the counterfeit preventing means 210 is binarized and labeled. It has a size smaller than the number of pixels that make up other parts of it.

The rim 217 also forms a square. The positioning symbol 211 and the reference cell 213 constituting the two-dimensional code constitute a conventional QR code, and a detailed description thereof will be omitted. In general, the data area 215 becomes a print area by coding information such as document information.

The data area 215 constituting the anti-counterfeiting means 210 printed on the document 200 includes a first data area 215-1 and a second data area 215-2. The first data area 215-1 and the second data area 215-2 may be divided up and down, and the upper part becomes the first data area 215-1 and the lower part becomes the second data area ( 215-2).

In the first data area 215-1, document information is coded and printed. The document information includes information input by the document creator, and information possessed by the document as basic information (eg, the name of the issuing institution in FIG. 5, the cashier's check in FIG. 6, etc.). The document information and the encoded data of the plurality of halftone dots 240 to be printed in the blank area 219 are generated as a hash value by a hash algorithm, and the generated hash value is coded and printed in the second data area 215-2. do.

Encoded data and document information of a plurality of dots 240 are stored in the storage unit of the document creation device 110 or encrypted by an encryption key provided through online in order to more reliably prevent forgery or tampering, and are encrypted by a hash algorithm. A hash value may be generated and coded to be printed on the second data area 215-2 of the 2D code.

A method of generating a document printed with a counterfeit prevention means using a printer steganography technique will be described.

For example, the document 200 on which the forgery prevention means 210 is printed is connected to a document writing device 110 (eg, PC) having a hash algorithm and a two-dimensional code generation function and the document writing device 110 It is printed by the document printing system 100 comprising a document printing device 130 (eg, a printer) that receives and prints information from the writing device 110. The hash algorithm and a two-dimensional code generation program, which is a two-dimensional code generation function, may be stored and executed in a storage unit (not shown) constituting the document writing device 110 or provided and executed online.

For a document created by the document creation device 110 constituting the document printing system 100, a forgery prevention means 210 having a first data area 215-1 and a second data area 215-2 together with the document information Is printed. The forgery prevention means 210 is printed on a blank portion where document information is not described.

The document information input by the document creator during document creation is printed in the first data area 215-1 of the 2D code by executing the 2D code generation program by a print command and coding. In the first data area 215-1 of the 2D code, dummy halftone data is coded and printed together with the document information code.

The halftone data for the plurality of halftone dots 240 to be printed in the blank area 219 between the 2D code and the border 217 are generated when the document creator inputs a storage command or a print command, and is stored in the storage unit.

As a related prior art 4, in Patent Registration No. 10-1573857, "a document equipped with a forgery prevention function, a method for preventing forgery and alteration of a document, and a method for confirming forgery of the document" are registered, and document printing device identification code information, hash algorithm , A document creation device having a code generation function, and a document printing system connected to the document creation device to print a document; It consists of a step of generating a hash value by a hash algorithm from document information and document printing device identification code information (a hash value generation step), and a step of generating a code from the hash value (code generation step). A method for preventing forgery and alteration of a document, characterized in that the code generated in the step is printed on the document, and a document provided with a forgery prevention function.

However, the wireless electronic tag (RFID tag) was able to read the tag value and password stored in the RFID tag of a wired/wireless terminal equipped with an RFID reader, but there was no way to solve this when forgery of the RFID tag. It did not provide forgery prevention of products or documents with) attached and forgery/forgery prevention of important documents such as contracts/notarized documents/identification cards/passports with RFID tags attached.

Patent Registration No. 10-1813658 (Registration Date December 22, 2017), "Wireless electronic tag-based genuine authentication service system and method using password update algorithm to prevent forgery", Jonghyuk Hong, Visualnet Patent Registration No. 10-0405828 (Registration Date November 04, 2003), "An apparatus and method for producing a document capable of preventing forgery and alteration, and an apparatus and method for authenticating the document", Mark Any Patent Registration No. 10-1535534 (Registration Date July 03, 2015), "How to create a document with forgery prevention means using printer steganography and how to check forgery of the document", Ministry of Public Administration and Security Patent Registration No. 10-1573857 (Registration Date November 26, 2015), "Documents equipped with a forgery prevention function, methods to prevent forgery and alteration of documents, and methods for confirming forgery and alteration of documents", Ministry of Public Administration and Security, National Institute of Scientific Investigation

An object of the present invention for solving the above problem is to introduce the concept of a block chain, and a 13.56 RFID tag identification number and an authentication key are stored in an RFID tag chip attached to a document, and stored in a distributed ledger of an RFID key storage of a genuine product authentication server, If necessary, it is simultaneously stored in the distributed ledger of the document producer's document management server, and the authentication key is a hash function using an authentication key password renewal algorithm (hashing algorithm) to prevent forgery and alteration at each document original authentication attempt or periodically for a certain period of time. Authentication key encryption to prevent document forgery using a distributed ledger as an RFID key storage, which generates a random number and continuously stores the authentication key to be updated and stored, and to prevent document forgery and to authenticate the original document. It provides a genuine authentication service system based on a wireless electronic tag using an update algorithm.

In order to achieve the object of the present invention, a wireless electronic tag-based genuine authentication service system using an authentication key encryption update algorithm for preventing document forgery and alteration using a distributed ledger as an RFID key storage includes: a document attached with a 13.56MHz RFID tag; Upon receiving a request for blockchain producer qualification from the document producer, a Producer Qualification Key is issued to the document producer, and the original document is authenticated using the 13.56MHz RFID tag identification number and authentication key tagged on the document with a 13.56MHz RFID tag. Activation server; And requesting the original authentication of the original 13.56MHz RFID tag attached to the document registered in the distributed ledger of the RFID key storage of the activation server, receiving the original authentication result in response to this, and attempting to authenticate the original document. Alternatively, the updated authentication key of the 13.56MHz RFID tag using the hash function using the authentication key password update algorithm for preventing document forgery and alteration periodically for a certain period of time is transferred to the distributed ledger of the RFID key storage of the activation server and 13.56 of the document. It includes a smartphone equipped with a consumer's genuine authentication app equipped with a 13.56MHz RFID tag reader that simultaneously stores on a MHz RFID tag chip.

A wireless electronic tag-based genuine product authentication service system using an authentication key password renewal algorithm for preventing the document forgery and falsification, when attempting to authenticate the original document for each document to which the 13.56MHz RFID tag is attached, or periodically identifying a 13.56MHz RFID tag It further includes a document management server of the document producer storing the number and the authentication key in the distributed ledger.

A wireless electronic tag-based genuine product authentication service system using an authentication key password renewal algorithm for preventing forgery of documents, a contract between a party with the document producer or a contract with an individual or corporation in a legal transaction relationship or a contract at the time of notarization, In the case of a notarized document, it further includes an authentication server that notarizes the contents of the contract and the contents including the notarized contents by a public third party authentication method using an encryption/decryption algorithm.

The authentication key continues after an attempt to authenticate the original document of the 13.56MHz RFID tag attached to the document of the document producer or periodically for a certain period of time by using the hash function using the authentication key encryption update algorithm for preventing forgery. The authentication key that is updated after each activation and the 13.56MHz RFID tag identification number of the document read by the RFID reader are simultaneously stored in the distributed ledger of the RFID key storage of the activation server and the 13.56MHz RFID tag chip. ,

Additionally, the updated authentication key and the 13.56MHz RFID tag identification number of the document may be stored in the distributed ledger of the document producer's document management server along the RFID reader-middleware-PC path.

The genuine product authentication server stores and manages a producer qualification key issued to each document producer and information of a document producer,

13.56MHz RFID tag identification number, update key and authentication key tagged for each document producer's document are registered and stored.

The activation server is

Document original determination unit that determines the authenticity of the original document of the RFID tag using the unique 13.56MHz RFID tag identification number attached to each document producer's document and the most updated authentication key, and provides the document original authentication result ;

An RFID tag information management unit that stores and manages information of a document producer who has received a producer qualification key, and a 13.56MHz RFID tag identification number and tag information attached to a document of the document producer; And

A 13.56MHz RFID tag identification number and authentication key are stored for each document producer's document, and an updated authentication key corresponding to the 13.56MHz RFID tag identification number attached to the document is stored after each document original authentication attempt or periodically for a certain period of time. Includes RFID key storage.

The 13.56MHz RFID tag attached to the document of the document producer uses an active tag including an antenna, a communication unit, a control unit, and a memory.

The 13.56MHz RFID tag chip attached to the document of the document producer is a 13.56MHz RFID tag identification number and an updated authentication key attached to the document after every attempt to authenticate the original document of the 13.56MHz RFID tag attached to the document or periodically for a certain period of time. Is saved.

The wireless electronic tag-based genuine product authentication service system using the authentication key encryption update algorithm for preventing document forgery and alteration using the distributed ledger of the present invention as an RFID key storage system introduces the concept of a block chain to the RFID tag attached to the document. 13.56 RFID tag identification number and authentication key are stored on the chip, stored in the distributed ledger of the RFID key storage of the genuine product authentication server, and simultaneously stored in the distributed ledger of the document producer's document management server when necessary, and the authentication key is the original document The authentication key is continuously updated and stored by generating a random number using a hash function using an authentication key password renewal algorithm (hashing algorithm) to prevent forgery and alteration every authentication attempt or periodically for a certain period of time, and prevents document forgery and alteration. Even if the original document is authenticated and the document is illegally copied, it is effective to determine the authenticity of the original document.

When attempting to authenticate the original document of the 13.56MHz tag attached to the document or through a wired/wireless terminal equipped with an RFID writer/reader to the activation server periodically for a certain period of time, the password of the authentication key for the 13.56MHz RFID tag attached to the document By changing it from time to time, it prevents forgery of products or documents by others, and a variable authentication key that is updated even if the 13.56MHz radio electronic tag (RFID) itself attached to documents such as contracts and notarized documents between the parties is duplicated. This can prevent forgery of the original document or attempt to authenticate the original copy.

1 is a view showing a forgery prevention means provided in a conventional document.
2 is a block diagram of an existing 13.56 MHz RFID tag, an RFID reader, and a system.
3 is a service flow diagram showing a wireless electronic tag-based genuine product authentication service method using a password update algorithm for preventing forgery and alteration of the company previously implemented.
4 is a block diagram showing a wireless electronic tag-based genuine product authentication service system and method using an authentication key password renewal algorithm for preventing document forgery and alteration using a distributed ledger as an RFID key storage by introducing the block chain concept according to the present invention. .

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a service flow diagram showing a wireless electronic tag-based genuine product authentication service method using an authentication key password update algorithm for preventing forgery and alteration of the company previously implemented.

A wireless electronic tag-based genuine product authentication service method using an authentication key password renewal algorithm to prevent forgery,

(a) storing an RFID tag identification number, a wireless electronic tag access password, and a genuine product authentication password, and recognizing the RFID tag by a wired/wireless terminal equipped with an RFID writer and a reader within a recognition distance of the RFID tag attached to the product or document; (b) The wired/wireless terminal requests the RFID tag recognized as a genuine product authentication server and the wireless electronic tag access password, and the genuine product certification server checks the right to access the RFID tag by inquiring the genuine product authentication information storage device. Transmitting a wireless electronic tag access code for the RFID tag to a wired/wireless terminal; (c) When the wireless electronic tag access code is transmitted from the wired/wireless terminal to the RFID tag, and the RFID tag compares this with the wireless electronic tag access code stored in its own memory of the RFID tag and matches, the wired/wireless terminal Recognizing the RFID tag identification number and the genuine product authentication password of the RFID tag, and transmitting the same to the genuine product authentication server to request genuine product authentication; (d) When the genuine product authentication server searches detailed product information of an RFID tag that has requested genuine product certification stored in the genuine product certification information storage device, and the genuine product certification password matches the genuine product certification password stored in the genuine product certification information storage device, Transmitting a genuine product authentication success response, detailed product information, and a new genuine product authentication password to the wired/wireless terminal, and storing the new genuine product authentication password in the genuine product authentication information storage device; And (e) the wired/wireless terminal outputs genuine product authentication success and the detailed product information on the wired/wireless terminal display window, and transmits the new genuine product authentication password from the wired/wireless terminal to the RFID tag, and the RFID tag authenticates the new genuine product. And updating and storing the password.

The RFID tag stores a unique RFID tag identification number, a wireless electronic tag access password, and a new genuine product authentication password (authentication key) that is variably updated to prevent forgery and alteration at regular intervals or at every attempt of genuine product authentication.

In the above steps (d) and (e), the genuine product is sent to the wired/wireless terminal according to the RFID tag identification number and the genuine product authentication password (authentication key) by the genuine product certification server periodically or whenever genuine product certification is attempted. It provides authentication verification and detailed product information, and stores a new product or document authentication password (authentication key) in its own product or document storage device to prevent forgery and alteration of the product or document, and at the same time, attached to the product or document through the wired or wireless terminal. It is updated and stored in the RFID tag.

The method includes (f) a wired/wireless device having the RFID writer and reader installed with the genuine product certification app by the server monitoring terminal in which the genuine product certification app is installed in the wireless electronic tag-based genuine product certification service system using the password update algorithm for preventing forgery and alteration. And monitoring the status of the terminal, the genuine product certification server, and the genuine product certification information storage device.

The genuine product certification server updates the new genuine product certification code of the 13.56MHz RFID tag through a wired/wireless terminal equipped with an RFID writer and reader at regular intervals or every time genuine product certification attempts to prevent forgery of 13.56MHz RFID tags attached to products and documents. Can be prevented.

As such, it prevents counterfeit goods (fake) such as products/medicine/agricultural products/luxury goods/food and beverages/liquor with a 13.56MHz RFID tag and important documents such as identification cards/contracts/notarized documents/passports with a 13.56MHz RFID tag. It can prevent forgery/modification.

4 is a block diagram showing a wireless electronic tag-based genuine product authentication service system and method using an authentication key password renewal algorithm for preventing document forgery and alteration using a distributed ledger as an RFID key storage by introducing the block chain concept according to the present invention. .

The present invention is a wireless electronic tag-based genuine product authentication service using an authentication key encryption update algorithm for preventing document forgery using a distributed ledger as an RFID key storage using a block chain concept and distributed P2P technology. System.

Introducing the blockchain concept, 13.56 RFID tag identification numbers and authentication keys are stored in the RFID tag chip attached to the document, and stored in the distributed ledger of the RFID key storage of the genuine product authentication server.

When necessary, it is simultaneously stored in the distributed ledger of the document producer's document management server,

The authentication key generates a random number using a hash function using an authentication key password renewal algorithm (hashing algorithm) for preventing forgery and alteration every attempt to authenticate the original authenticity or periodically for a certain period of time, and the authentication key is continuously updated and stored. , This is to prevent forgery and falsification of documents, certify the original document, and prevent forgery of documents.

A hashing algorithm is used as an authentication key password renewal algorithm to prevent forgery of documents such as contracts, notarized documents, ID cards, and passports between parties.

The distributed ledger of the RFID key storage 102 of the activation server 100 and the 13.56MHz RFID tag attached to the document are used as a 13.56MHz RFID tag identification number and a genuine authentication password for the original document to determine whether the original document is authentic. The certification key (certification key) is stored.

Using the concept of the block chain of the present invention, a wireless electronic tag-based genuine product authentication service system using an authentication key encryption update algorithm for preventing document forgery and alteration using a distributed ledger as an RFID key storage,

13.56MHz RFID tag attached document 201; Upon receiving a request for qualification as a blockchain producer from the document producer, a Producer Qualification Key is issued to the document producer, and the original document is authenticated using the RFID tag identification number and authentication key tagged on the document 201 with a 13.56MHz RFID tag. A genuine product authentication server 100; And

Requests for document original authentication of a unique 13.56MHz RFID tag attached to the document registered in the distributed ledger of the RFID key storage 102 of the activation server 100, and receives the document original authentication result in response, When attempting to authenticate the original document or periodically for a certain period of time, the updated authentication key of the 13.56MHz RFID tag is stored using a hash function using an authentication key password update algorithm to prevent document forgery and alteration. It includes a smart phone 300 equipped with a consumer's genuine product authentication app equipped with a distributed ledger of 102 and a 13.56MHz RFID tag reader that simultaneously stores the document in a 13.56MHz RFID tag chip.

A wireless electronic tag-based genuine product authentication service system using an authentication key encryption update algorithm for preventing forgery of documents, the 13.56MHz RFID tag identification number when attempting to authenticate the original document for each document to which the 13.56MHz RFID tag is attached or periodically for a certain period of time And it further includes a document management server 210 of the document producer for storing the authentication key in the distributed ledger.

The wireless electronic tag-based genuine product authentication service system using the authentication key password renewal algorithm for preventing the forgery of the document is a contract with an individual or corporation in a legal transaction relationship such as a contract or notarization with the document producer or at the time of notarization. , In the case of notarized documents, it further includes an authentication server 230 for notarizing the contents of the contract and the contents including the notarized contents in a public third party authentication method using an encryption/decryption algorithm.

The authentication key continues using the hash function after every attempt to authenticate the original document of the 13.56 MHz RFID tag 201 attached to the document of the document producer or periodically for a certain period of time using an authentication key encryption update algorithm for preventing forgery. The authentication key is updated, and the authentication key that is updated every time after authenticating the original document and the 13.56MHz RFID tag identification number of the document read by the RFID reader are distributed to the RFID key storage 102 of the authenticating server 100 And simultaneously stored in the 13.56MHz RFID tag chip attached to the document,

Additionally, the updated authentication key and the 13.56MHz RFID tag identification number of the document may be stored in the distributed ledger of the document producer's document management server 210 in the RFID reader-middleware-PC path.

The genuine product authentication server 100 stores and manages a producer qualification key issued to each document producer and information of the document producer,

The 13.56MHz RFID tag identification number and the updated authentication key tagged for each document of each document producer are registered and stored.

The genuine product authentication server 100

Document original determination unit that determines the authenticity of the original document of the RFID tag using the unique 13.56MHz RFID tag identification number assigned to each document producer's document and the most updated authentication key and provides the document original authentication result ;

An RFID tag information management unit that stores and manages information of a document producer who has received a producer qualification key, and a 13.56MHz RFID tag identification number and tag information attached to a document of the document producer; And

A 13.56MHz RFID tag identification number and authentication key are stored for each document producer's document, and an updated authentication key corresponding to the 13.56MHz RFID tag identification number attached to the document is stored after each document original authentication attempt or periodically for a certain period of time. It includes an RFID key storage 102.

The 13.56MHz RFID tag 201 attached to the document of the document producer uses an active tag including an antenna, a communication unit, a control unit, and a memory.

The 13.56MHz RFID tag chip attached to the document of the document producer is updated with the 13.56MHz RFID tag identification number attached to the document at regular intervals or after every attempt to authenticate the original document of the 13.56MHz RFID tag 201 attached to the document. The authenticated key is saved.

Many document producers, such as document producer 1, document producer 2, document producer 3, etc., make a request for qualification of a blockchain producer to the activation server 100 and receive a producer qualification issuance key from the activation server 100. The document producer registers and stores a 13.56 MHz RFID tag identification number and an updated authentication key in the distributed ledger of the RFID key storage 102 of the genuine product authentication server 100 and the RFID tag chip of the document.

Additionally, the 13.56MHz RFID tag identification number of the document and the updated authentication key may be stored in the distributed ledger of the document management server 210 and used.

When attempting to authenticate the original document of the 13.56MHz tag 201 attached to the document, or periodically through a wired/wireless terminal equipped with an RFID writer/reader to the activation server 100 for a certain period of time, the 13.56MHz RFID tag attached to the document By changing the password of the authentication key for Korea from time to time, it prevents forgery of products or documents by others, and is a variable authentication that is updated even if the 13.56MHz radio electronic tag (RFID) itself attached to documents such as contracts and notarized documents between the parties is duplicated. The key (genuine authentication password) prevents forgery of the original document, authenticates the original document, and determines the authenticity of the original document even if the document is illegally copied.

The embodiments according to the present invention may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like alone or in combination. Computer-readable recording media include storage, magnetic media such as hard disks, floppy disks, and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic media such as floptical disks. -Magneto-optical media, and hardware devices specially configured to store and execute program instructions such as ROM, RAM, flash memory, etc. may be included. Examples of the program instructions may include not only machine language codes, but also high-level language codes that can be executed by a computer using an interpreter or the like, which are produced by a compiler. The hardware device may be configured to operate as one or more software modules to perform the operation of the present invention.

As described above, the method of the present invention is implemented as a program and can be read using software of a computer, and a recording medium (CD-ROM, RAM, ROM, memory card, hard disk, magneto-optical disk, storage device, etc.) ) Can be stored.

Although it has been described with reference to a preferred embodiment of the present invention, various modifications or variations of the present invention within the scope not departing from the spirit and scope of the present invention described in the following claims by those of ordinary skill in the relevant technical field You will understand that it can be done.

100: activation server
101: RFID tag information management unit
102: RFID key storage (distributed ledger: 13.56MHz RFID tag identification number, authentication key)
200: document management server
300: Smartphone equipped with an activation app

Claims (8)

Documents with 13.56MHz RFID tag attached;
Upon receiving a request for blockchain producer qualification from the document producer, a Producer Qualification Key is issued to the document producer, and the original document is authenticated using the 13.56MHz RFID tag identification number and authentication key tagged on the document with a 13.56MHz RFID tag. Activation server; And
Requests for document original authentication of the original 13.56MHz RFID tag attached to the document registered in the distributed ledger of the RFID key storage of the activation server, and the document original authentication result is received in response to this, and when attempting to authenticate the original document or The updated authentication key of the 13.56MHz RFID tag using the hash function using the authentication key password renewal algorithm to prevent document forgery periodically for a certain period of time and the distributed ledger of the RFID key storage of the activation server and the 13.56MHz of the document A smart phone equipped with a consumer's genuine product authentication app including a 13.56MHz RFID tag reader that simultaneously stores in an RFID tag chip;
A wireless electronic tag-based genuine product authentication service system using an authentication key password update algorithm for preventing document forgery and alteration using a distributed ledger including a RFID key storage. The method of claim 1,
When attempting to authenticate the original document for each document to which the 13.56MHz RFID tag is attached, or periodically for a certain period of time, the distributed ledger further includes a document management server of a document producer that stores the 13.56MHz RFID tag identification number and the authentication key in the distributed ledger. A wireless electronic tag-based genuine product authentication service system using an authentication key password update algorithm to prevent forgery and alteration of documents used as storage. The method of claim 1,
In the case of contracts or notarized documents, the contents of the contract between the parties and the notarized contents at the time of a contract or notarization with an individual or corporation in a contract with the document producer or legal transaction relationship using an encryption/decryption algorithm A wireless electronic tag-based genuine product authentication service system using an authentication key password renewal algorithm to prevent forgery and alteration of documents using a distributed ledger further including an authentication server notarized by a third party authentication method as an RFID key storage. The method of claim 2,
The authentication key continues after an attempt to authenticate the original document of the 13.56MHz RFID tag attached to the document of the document producer or periodically for a certain period of time by using the hash function using the authentication key encryption update algorithm for preventing forgery. The authentication key, which is updated every time after document original authentication, and the 13.56MHz RFID tag identification number of the document read by the RFID reader, are simultaneously stored in the distributed ledger of the RFID key storage of the activation server and the 13.56MHz RFID tag chip. And
Additionally, the updated authentication key and the 13.56MHz RFID tag identification number of the document can be stored in the distributed ledger of the document producer's document management server in the RFID reader-middleware-PC path, and a distributed ledger is used as an RFID key storage. A genuine authentication service system based on a wireless electronic tag using an authentication key password renewal algorithm to prevent forgery and alteration. The method of claim 1,
The activation server is
It stores and manages the producer qualification key issued to each document producer and the document producer information,
A wireless electronic tag based wireless electronic tag using an authentication key encryption update algorithm to prevent forgery using a distributed ledger as an RFID key storage, registering and storing the 13.56MHz RFID tag identification number and updated authentication key tagged for each document producer's document Product activation service system. The method of claim 1,
The activation server is
Document original determination unit that determines the authenticity of the original document of the RFID tag using the unique 13.56MHz RFID tag identification number attached to each document producer's document and the most updated authentication key, and provides the document original authentication result ;
An RFID tag information management unit that stores and manages information of a document producer who has received a producer qualification key, and a 13.56MHz RFID tag identification number and tag information attached to a document of the document producer; And
A 13.56MHz RFID tag identification number and authentication key are stored for each document producer's document, and an updated authentication key corresponding to the 13.56MHz RFID tag identification number attached to the document is stored after each document original authentication attempt or periodically for a certain period of time. RFID key storage;
A wireless electronic tag-based genuine product authentication service system using an authentication key password renewal algorithm for preventing forgery and alteration using a distributed ledger including a RFID key storage. The method of claim 1,
The 13.56MHz RFID tag attached to the document of the document producer uses an active tag including an antenna, a communication unit, a control unit, and a memory, and an authentication key password update for preventing forgery using a distributed ledger as an RFID key storage. Genuine authentication service system based on wireless electronic tag using algorithm. The method of claim 1,
The 13.56MHz RFID tag chip attached to the document of the document producer is a 13.56MHz RFID tag identification number and an updated authentication key attached to the document after every attempt to authenticate the original document of the 13.56MHz RFID tag attached to the document or periodically for a certain period of time. A wireless electronic tag-based genuine product authentication service system using an authentication key password renewal algorithm to prevent forgery and alteration using a distributed ledger as an RFID key storage.

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