KR102289903B1 - System for verifying forgery or false of electronic document based on blockchain - Google Patents

Abstract

The present invention relates to a system for verifying forgery of a document through comparison of an original, meta-document, and hash between a generated document generated in a terminal and a shared shared document. The present invention has the effect of increasing the comparison speed between documents by comparing the original, meta-document, and hash of the electronic document created in the terminal and the electronic document shared on the network to determine whether the electronic document has been forged or forged. In addition, the present invention transmits the generated electronic document to the records management server after a predetermined period has elapsed, and stores the generated electronic document recorded in the records management server in the permanent record server, so that the electronic document can be easily managed. There is an advantage.

Description

Blockchain-based electronic document forgery verification system {SYSTEM FOR VERIFYING FORGERY OR FALSE OF ELECTRONIC DOCUMENT BASED ON BLOCKCHAIN}

The present invention relates to a system for verifying forgery of an electronic document based on a block chain, and more particularly, to a document forgery through comparison of an original, meta-document, and hash between a generated document generated in a terminal and a shared document. It relates to a system that verifies

Electronic documents, which are a series of information prepared in an electronic form and transmitted, received, and stored, have been mass-produced since the rapid spread of computers. Although the productivity of document creation and editing has increased dramatically with the development of technology, the productivity of forgery is also increasing.

In the management of electronic documents, internal managers designate work guidelines to verify forgery or alteration, physical document changes, etc., establish a monitoring system to prevent hacking, and back up data. As such, the existing method of implementing trust related to electronic documents is implemented in a way that strictly controls access to electronic documents, but it only becomes complicated and safety is not guaranteed.

Recently, blockchain has been used to verify forgery of electronic documents, and electronic documents can be shared through the characteristics of the block chain, and forgery of electronic documents can be detected through shared information. Korean Patent Registration No. 10-1977178 (hereinafter referred to as 'prior literature') relates to a verification method for verifying whether a document file or image file is forged or falsified based on block chain technology and a computer-readable storage medium to which the same is applied. . Prior literature can verify forgery of electronic document files, etc. by verifying whether files are forged or falsified based on blockchain technology. However, as the amount of electronic documents increases, data processing speed is lowered, and there is a problem in that the server is overloaded.

Korean Patent Registration No. 10-1977178 (Title of the invention: Blockchain-based file forgery verification method and computer-readable storage medium to which it is applied, registration date: 2019.05.03.)

An object of the present invention is to determine whether an electronic document has been forged or forged by comparing the original, meta-document, and hash of an electronic document created in a terminal and an electronic document shared on a network in order to solve the above problems.

Another object of the present invention is to transmit the generated electronic document to a records management server after a predetermined period has elapsed, and to store the generated electronic document recorded in the records management server in a permanent record server.

A block chain-based document forgery verification system according to the present invention includes a receiving unit for receiving at least one generated electronic document generated in a terminal, a meta document generating unit generating a meta document in which the generated electronic document is defined, and a hash function. A hash generator for generating a unique hash for the generated electronic document, a storage unit for storing the generated electronic document, the meta document, and the hash, and distributing the generated electronic document to other terminals a shared document generation unit generating a shared electronic document including the generated electronic document, the meta document, and the hash, a transmitting unit transmitting the shared electronic document to the other terminals, and the another terminal and a document verification server including a document comparison unit that receives the shared electronic document from and determines whether the generated electronic document has been forged or forged through comparison with the generated electronic document.

The document comparison unit according to the present invention comprises an original comparison unit comparing the original information of the generated electronic document and the shared electronic document, a meta comparison unit comparing the generated electronic document and a meta document of the shared electronic document, and the generated electronic document and a hash comparison unit for comparing a hash of the document and the shared electronic document.

The block chain-based document forgery verification system according to the present invention receives and records the electronic document including the generated electronic document, the meta document, and the hash stored for a predetermined period in the document storage unit. It further includes a permanent record document server for receiving and permanently storing the electronic document recorded in the server and the record management document server.

The document verification server according to the present invention further includes a reference information generator for generating reference information by combining an identifier in a preset position of the hash function and bit information about a date area where the hash is generated.

The reference information generation unit according to the present invention includes a code generation unit generating code information corresponding to the identification character, an encryption key generation unit generating an encryption key by extracting bit information generated by a set encryption method in block order, and the and a bit information identification unit for identifying specific bit information corresponding to the date area from an encryption key, and a combination unit generating reference information by combining the code information and the specific bit information.

The present invention has the effect of increasing the comparison speed between documents by comparing the original, meta-document, and hash of the electronic document created in the terminal and the electronic document shared on the network to determine whether the electronic document has been forged or forged.

In addition, the present invention transmits the generated electronic document to the records management server after a predetermined period has elapsed, and stores the generated electronic document recorded in the records management server in the permanent record server, so that the electronic document can be easily managed. There is an advantage.

1 is a block diagram of a block chain-based document forgery verification system according to the present invention.
2 is a block diagram of a document verification server according to the present invention.
3 is another configuration diagram of a document verification server according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing an embodiment of the present invention, if it is determined that a detailed description of a related known technology may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

1 is a block diagram of a block chain-based document forgery verification system according to the present invention. 1, the block chain-based document forgery verification system may be composed of a document verification server 1000, a records management server 2000, and a permanent record server 3000, and the document verification server 1000 is a specific It receives the generated electronic document from the terminal A, and distributes the shared electronic document for the generated electronic document to other terminals (terminals B, C, Z, etc.) on the network. When the electronic document data stored in the document verification server 1000 elapses for a predetermined period, it is transmitted to the records management server 2000, and the records management server 2000 records the transmission history of the electronic document. The period during which the electronic document is stored in the document verification server 1000 is preferably designated between 1 and 2 years, but is not limited to a specific period.

When information on an electronic document is recorded by the records management server 2000 , the recorded electronic document is transmitted to the permanent record server 3000 .

2 is a block diagram of a document verification server according to the present invention. 2, the document verification server includes a receiving unit 1100, a meta document generating unit 1200, a hash generating unit 1300, a shared document generating unit 1400, a storage unit 1500, a transmitting unit 1600, and a document. A comparator 1800 may be included.

The receiving unit 1100 is a device for receiving at least one generated electronic document generated by the terminal. The terminal may generate a generated electronic document by processing specific data, or may transmit an original electronic document as a generated electronic document. This is not limited to a structure that can be changed and designed according to the usage environment of the document verification server or terminal.

The meta document generating unit 1200 generates a meta document by extracting information defined in the document from the generated electronic document. In an electronic document, the name, file format, creation date, document size, modification date, owner, etc. of the document are defined, and this information is referred to as a meta document.

The hash generator 1300 generates a unique hash by compressing the generated electronic document into an output value of a fixed length through a hash function. A hash is a unique value that symbolizes a generated electronic document, and consists of a value or key that is shorter than an electronic document.

The storage unit 1400 stores a generated electronic document, a meta document, and a hash.

The shared document generating unit 1500 generates a shared electronic document including a generated electronic document, a meta document, and a hash in order to distribute the generated electronic document to other terminals.

The transmitter 1600 transmits the shared electronic document to other terminals and shares it on the network. The receiver 1700 is a device for receiving a shared electronic document shared on a network.

The document comparison unit 1800 is a device for determining whether an electronic document has been forged or forged by determining whether the generated electronic document and the shared electronic document are the same, and receives the shared electronic document from other terminals and compares it with the generated electronic document do. The document comparison unit 1700 may include an original comparison unit 1710 , a meta comparison unit 1720 , and a hash comparison unit 1730 . The original comparison unit 1710 is a device for comparing original information of the generated electronic document and the shared electronic document. The meta comparison unit 1720 is a device for comparing the meta document of the generated electronic document and the shared electronic document. The hash comparison unit is a device that compares the hash of the generated electronic document and the shared electronic document. The document comparison unit 1700 can verify forgery of the generated electronic document by using any one of, or two or more of, the original comparison unit 1710, the meta comparison unit 1720, and the hash comparison unit 1730. . However, when only the hash comparison unit 1730 is used, the comparison speed between electronic documents can be significantly increased.

3 is another configuration diagram of a document verification server according to the present invention. Referring to FIG. 3 , a receiving unit 1100 , a meta document generating unit 1200 , a hash generating unit 1300 , a shared document generating unit 1400 , a storage unit 1500 , a transmitting unit 1600 , and a document comparing unit 1700 . ) has the same configuration as in FIG. 2 . 3 shows a case in which the reference information generating unit 1800 is added, and a description of the overlapping configuration with that of FIG. 2 will be omitted.

The reference information generating unit 1800 is a device for generating reference information in a document to increase the speed of document comparison. The reference information generating unit 1800 generates reference information by combining an identifier in a preset position of a hash and bit information about a date area where the hash is generated. Referring to FIG. 3 , the reference information generation unit 1800 may include a code generation unit 1810 , an encryption key generation unit 1820 , a bit information identification unit 1830 , and a combination unit 1840 .

The code generator 1820 is a device for generating code information corresponding to an identification character in a preset position of a hash. As the hash is made up of a combination of numbers and letters, either a number or a letter may be designated at a preset position of the hash. Therefore, the code generator 1820 is a device for unifying numbers and letters into one code information. For example, if the code information consists of numbers, the number 1 0001 and the number 2 may be designated as 000, the alphabet a as 0010, the alphabet b as 0011, the alphabet z as 0025, and the like. Code information is not limited to the above example, and may be changed through user convenience and administrator settings.

The encryption key generation unit 1820 is a device for generating an encryption key by extracting bit information generated by a preset encryption method in block order. It is preferable that the encryption method consists of a block cipher using a symmetric key such as the AES (Advanced encryption standard) algorithm, and an encryption key including 128 bits of information is generated through the encryption algorithm of AES-128. The AES algorithm is a well-known technology and detailed description thereof will be omitted.

The bit information identification unit 1830 is a device for identifying specific bit information corresponding to a date area in which a hash is generated from an encryption key. The encryption key generated by the AES method consists of 16 blocks comprising 8 bits of information. Therefore, each month can be designated for each of the 16 blocks, and the dates from the 1st to the 31st can be divided into quarters for 8 bits of information included in each block. In one embodiment, January 1 is the first bit information of the first block, and May 10 is the third bit information of the fifth block.

The combination unit 1840 generates reference information by combining the code information and specific bit information, and the generated reference information is stored in the storage unit 1500 . Therefore, after the hash included in the shared electronic document is primarily searched through reference information, the searched hashes and the hash of the shared electronic document are searched secondarily. On the other hand, the reference information generating unit 100 is provided with a decryption key for the encryption key to index the reference information by date.

1000: document verification server 1100: receiving unit
1200: meta document generation unit 1300: hash generation unit
1400: shared document generation unit 1500: storage unit
1600: transmitter 1700: document comparison unit
1710: original comparison department 1720: meta comparison department
1730: hash comparison unit 1800: reference information generation unit
1810: code generation unit 1820: encryption key generation unit
1830: bit government identification unit 1840: union unit
2000: records management server 3000: permanent record server

Claims (5)

a receiving unit for receiving at least one generated electronic document generated in the terminal;
a meta document generating unit generating a meta document in which the generated electronic document is defined;
a hash generator for generating a unique hash for the generated electronic document through a hash function;
a storage unit in which the generated electronic document, the meta document, and the hash are stored;
a shared document generation unit generating a shared electronic document including the generated electronic document, the meta document, and the hash in order to distribute the generated electronic document to other terminals;
a transmitter for transmitting the shared electronic document to the other terminals; and
A document comparison unit and the document verification server for receiving the shared electronic document from the other terminal and determining whether the generated electronic document has been forged or forged through comparison with the generated electronic document is identified within a preset position of the hash function A block chain-based document forgery verification system comprising a; a document verification server including a reference information generating unit that generates reference information by combining a character and bit information about a date area in which the hash is generated.
The method of claim 1,
The document comparison department
an original comparison unit comparing original information of the generated electronic document and the shared electronic document;
a meta comparison unit comparing the generated electronic document with the meta document of the shared electronic document; and
A block chain-based document forgery verification system comprising a; a hash comparison unit for comparing the hash of the generated electronic document and the shared electronic document.
The method of claim 1,
a records management document server for receiving and recording the electronic document including the generated electronic document, the meta document, and the hash stored in the storage unit for a predetermined period; and
Block chain-based document forgery verification system, characterized in that it further comprises a permanent record document server for receiving and permanently storing the electronic document recorded in the records management document server.
delete The method of claim 1, wherein the reference information generating unit
a code generation unit generating code information corresponding to the identification character;
an encryption key generator for generating an encryption key by extracting the bit information generated by a preset encryption method in block order;
a bit information identification unit for identifying specific bit information corresponding to the date area from the encryption key; and
A block chain-based document forgery verification system comprising a; a combination unit for generating reference information by combining the code information and the specific bit information.

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