KR20200095203A - Method and system for managing electronic document - Google Patents

Abstract

Provided are an electronic document management method and a system therefor. The electronic document management method performed in an electronic document management server that is operated by at least one processor comprises the following steps of: requesting and receiving an electronic signature for an electronic document from a user terminal when the electronic document is created; and storing the electronic document including the electronic signature in a blockchain. Therefore, it is possible to verify that an electronic document was created by a specific user at a specific time without forgery by using reliable time stamps and electronic signatures.

Description

Electronic document management method and its system {METHOD AND SYSTEM FOR MANAGING ELECTRONIC DOCUMENT}

The present invention relates to an electronic document management method and system thereof.

When conducting any transaction or contract, such as financial products, insurance products, service subscriptions, etc., in order to prove that the customer has sufficiently confirmed the description of the transaction or contract, the customer directly listens to the explanation of the product in the contract and subscribes to it. You will be asked to handwrite and sign the information that you did. This has the purpose of protecting the customer and at the same time is a proof of non-repudiation of a transaction or contract. Not all products handled by banks are created when signing up, and they are written in new cases, such as deposit products, investment products, insurance, loans, etc. with complex or unusual structure of product structure.

However, even if there is such a statement in the contract, there are some customers who claim that'they signed up without receiving an explanation directly from the employee' or'the person did not fill out the application', resulting in a dispute.

The technical problem to be achieved by the present invention is to use a time stamp and an electronic signature to manage an electronic document such as a customer's transaction confirmation on a blockchain basis, thereby notarizing the customer's confirmation. It is to provide an electronic document management method and system for notarization.

An electronic document management method according to an embodiment of the present invention is an electronic document management method performed in an electronic document management server operated by at least one processor, wherein when an electronic document is generated, an electronic signature for the electronic document is provided to a user terminal. And requesting and receiving, and storing the electronic document including the electronic signature in the blockchain.

The receiving may include generating a first electronic signature of an electronic document creator, inserting the first electronic signature into the electronic document, and transmitting the electronic document into which the first electronic signature is inserted to the user terminal. And receiving an electronic document to which a user's second electronic signature is added from the user terminal.

For the first electronic signature, a private key stored in the electronic document management server may be used.

Before the step of transmitting to the user terminal, at a time when an electronic document is generated, transmitting a first time stamp issuance request to a time stamp server, and receiving a first time stamp from the time stamp server, and the first The electronic document may further include inserting a time stamp into the electronic document, and the electronic document transmitted to the user terminal may include the first electronic signature and the first time stamp.

In the receiving of the electronic document to which the second electronic signature has been added, the second electronic signature generated by the user terminal and the electronic document to which the second time stamp issued by the user terminal is added may be received.

An electronic document management method according to another embodiment of the present invention is an electronic document management method performed in a user terminal operated by at least one processor, comprising the steps of: receiving an electronic document from an electronic document management server, and an electronic document for the electronic document. Generating a signature, and transmitting the electronic document into which the electronic signature is inserted to the electronic document management server, wherein the electronic document may be stored in a blockchain.

The receiving may include receiving an electronic document into which an electronic signature electronically signed with a private key of the electronic document management server is inserted, and the transmitting may include an electronic document additionally inserted with the electronic signature of the user terminal. Can be sent to the management server.

In the receiving step, the electronic document management server receives the electronic document with the first time stamp issued from the time stamp server, and after the receiving step, requests the time stamp server to issue a second time stamp. Receiving a second time stamp, the transmitting step, the electronic signature of the electronic document management server, the electronic signature of the user terminal, the first time stamp and the second time stamp is inserted You can send the document.

An electronic document management system according to another embodiment of the present invention inserts a first electronic signature of an electronic document creator and a second electronic signature of a user into an electronic document, and includes the first electronic signature and the second electronic signature. An electronic document management server for generating a transaction including a document, and a blockchain system comprising a plurality of blockchain nodes, and recording the transaction received from the electronic document management server in a blockchain.

The electronic document management server may transmit the electronic document into which the first electronic signature is inserted to a user terminal to request an electronic signature from the user, and receive the electronic document to which the second electronic signature is added from the user terminal. .

The electronic document management server may generate the first electronic signature with the private key of the electronic document creator, and the user terminal may generate the second electronic signature with the private key of the user.

The private key may be stored in the electronic document management server and the user terminal, respectively.

The electronic document management server inserts the first time stamp and the first electronic signature issued at the time the electronic document is generated into the electronic document, and includes the first time stamp and the second electronic signature. Transmits a document to the user terminal, and receives the electronic document to which the second time stamp issued by the user terminal and the second electronic signature are added from the user terminal, and the first time stamp, the first electronic signature , A transaction may be generated based on electronic document data including the second time stamp and the second electronic signature, and the transaction may be transmitted to the blockchain system.

The electronic document management server may request the electronic signature and receive the electronic document by interlocking with an electronic document management program executed in the user terminal.

According to an embodiment of the present invention, it is possible to verify that an electronic document is created by a specific user at a specific time without forgery using a reliable time stamp and an electronic signature.

1 is a block diagram of an electronic document management system according to an embodiment of the present invention.
2 shows a blockchain structure to which an embodiment of the present invention is applied.
3 is a block diagram showing the configuration of an electronic document management server according to an embodiment of the present invention.
4 is a block diagram showing the configuration of a user terminal according to an embodiment of the present invention.
5 is a flowchart illustrating an electronic document management method according to an embodiment of the present invention.
6 is a block diagram showing a hardware configuration of an electronic document management system according to another embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains may easily practice. However, the present invention can be implemented in many different forms and is not limited to the embodiments described herein. In addition, in order to clearly describe the present invention in the drawings, parts irrelevant to the description are omitted, and like reference numerals are assigned to similar parts throughout the specification.

Throughout the specification, when a part "includes" a certain component, it means that other components may be further included rather than excluding other components unless otherwise stated.

In addition, the terms “… unit” and “… module” described in the specification mean a unit that processes at least one function or operation, which may be implemented by hardware or software or a combination of hardware and software.

In this specification, a block chain (blockchain) records continuously increasing data in a block of a specific unit, and each node constituting a peer-to-peer network manages the block as a chain-type data structure. It refers to data itself composed of data management technology or data structures in the form of a chain. At this time, blockchain data composed of a chain-type data structure is operated in the form of a distributed ledger in each node without a central system.

Now, an electronic document management method and a system thereof according to an embodiment of the present invention will be described with reference to the drawings.

1 is a block diagram of an electronic document management system according to an embodiment of the present invention, and FIG. 2 shows a block chain structure to which an embodiment of the present invention is applied.

Referring to FIG. 1, the electronic document management system 1 includes an electronic document management server 100, a communication network 200, a user terminal 300, a blockchain system 400, and a timestamp server 500. Include.

The electronic document management server 100 is connected to the user terminal 300 through the communication network 200. The communication network 200 is a closed area network such as a local area network (LAN), a wide area network (WAN), and an open network such as the Internet, as well as code division multiple access (CDMA) and wideband code division multiple access (WCDMA). , Global System for Mobile Communications (GSM), Long Term Evolution (LTE), EvolvedPacket Core (EPC), and other next-generation networks and computing networks to be implemented in the future.

The electronic document management server 100 is connected to the blockchain system 400 through an internal network (not shown). For example, the internal network (not shown) may include a computer network built in a financial institution.

The electronic document management server 100 generates an electronic document, and inserts an electronic signature of the electronic document creator (hereinafter, collectively referred to as “first electronic signature”) into the generated electronic document. Further, the electronic document management server 100 receives a first time stamp from the time stamp server 500 at the time when the electronic document is generated and inserts it into the electronic document. Here, the electronic document creator may include financial institutions, insurance companies, public institutions, and the like. Time stamp is an electronic technique that confirms the time point in an electronic document and proves that it has not been modified since then.

The electronic document is a type of contract that requires electronic signatures of both the creator and the user of the electronic document, and may be, for example, a confirmation of a transaction of a financial institution. The customer's transaction confirmation is a document to prove that the customer has sufficiently confirmed the explanation of the transaction or contract when conducting any transaction or contract, such as financial products, insurance products, and service subscriptions.

The electronic document management server 100 transmits the electronic document including the first electronic signature and the first time stamp to the user terminal 300 to request the user's electronic signature.

The user terminal 300 includes a user's electronic signature on the electronic document received from the electronic document management server 100 (hereinafter, collectively referred to as'second electronic signature') and the time stamp server 500 at the time when the user electronically signs. Insert the second time stamp issued from. Then, the electronic document is transmitted to the electronic document management server 100.

The user terminal 300 is equipped with an electronic document management program 301 capable of opening or editing an electronic document, requesting a time stamp, and generating an electronic signature. The user terminal 300 may be a user computer, laptop, tablet, handheld PC, PDA (Personal Digital Assistants), mobile phone, or the like.

The blockchain system 400 is composed of a plurality of blockchain nodes 401. The blockchain node 401 receives from the electronic document management server 100 a transaction including a first electronic signature, a second electronic signature, a first time stamp, and an electronic document in which the second time stamp is inserted. The blockchain node 401 records the transaction received from the electronic document management server 100 in a new block, and propagates the new block on the blockchain network so that distributed consensus is achieved. When distributed consensus is reached, a new block is registered on the blockchain. The propagation of new blocks is promised by the communication protocol. For example, when a transaction occurs, one blockchain node 401 propagates to eight designated blockchain nodes 401. Transaction propagation is carried out to all blockchain nodes 401 holding the blockchain through pyramidal propagation repeatedly propagating to each of the eight blockchain nodes 401 designated for each of the eight blockchain nodes 401 that have received the transaction. Therefore, it is impossible to falsify the transaction recorded on the blockchain later.

The plurality of blockchain nodes 115 may manage blocks in a data structure as shown in FIG. 2. Blocks are individual elements that make up the blockchain, and store reference values and electronic document information for previous blocks.

2 shows a blockchain structure to which an embodiment of the present invention is applied.

Referring to FIG. 2, a block 600 includes a block hash 610, a header 620, a transaction count/Ethereum Classic (ETC) 630, and a body 640.

The block hash 610 is name information of the block 600. The block hash 610 is the version 621 contained in the header 620, the previous block hash 622, the Merkle Root 623, the time stamp 624, the difficulty target (time, bits) 625 It may be a result of converting to a hash function (eg, SHA256) obtained by adding all of the nonces 626 and obtaining the sum.

The version 621 contained in the header 620 is a version of the block 600 and represents an upgrade version of the blockchain software or protocol used.

The previous block hash 622 contained in the header 620 indicates the address value of the previous block before the current block in the blockchain. Thus, block #1 and block #2 are connected to each other. Therefore, as the blocks are accumulated, forgery and alteration of transactions recorded in the blocks becomes difficult, and reliability of transactions recorded in each block is improved.

The Merclout 623 in the header 620 is a hash tree of transactions stored in the body 640 of the block 600. Merclout 623 can be used to verify the integrity of a transaction existing in a single block. Merkle 623 constructs a Merkle tree using all the transactions stored in the block and stores the root value of the tree, and verifies the integrity of all transactions in the block or whether a specific transaction is included in the block. You can check whether it is not.

The time stamp 624 in the header 620 is a field indicating the generation time of the block and stores a value calculated in seconds from the Unix reference date.

The difficulty target 625 and the nonce 626 in the header 620 are used in a process called mining. The difficulty target 625 includes bits indicating a difficulty hash target value. The nonce 626 is a counter used in the proof of work of the block mining process.

Here, referring to mining, mining produces electronic money, verifies the validity of transactions for blocks, and connects blocks to the blockchain. In order to perform mining, a large number of miners participate, and among a large number of miners, a coin is obtained through a consensus mechanism, and a miner who creates a block and connects to the blockchain is selected. This consensus mechanism is achieved through Proof Of Work in Bitcoin, and hash cash problem is used as proof of work. As the computing performance improves, the hash cash problem is quickly solved. In this case, the time to solve the hash cash problem can be adjusted by modifying the difficulty target field value.

The transaction count/ETC 405 stores the number of transactions.

The body 407 stores a plurality of transactions. The transaction includes electronic document data in which a first electronic signature, a second electronic signature, a first time stamp, and a second time stamp are inserted.

Again, referring to FIG. 1, the timestamp server 500 corresponds to a trusted third party as a subject providing visual information that can prove the existence of data at a specific time. For example, the timestamp server 500 may be a concept including a TimeStamping Authority (TSA), a Time Authority (TA), and a Certificate Authority (CA).

3 is a block diagram showing the configuration of an electronic document management server according to an embodiment of the present invention.

3, the electronic document management server 100 includes a key storage unit 101, an electronic document management unit 103, an electronic signature unit 105, a timestamp processing unit 107, and a transaction generation unit 109. .

The key storage unit 101 stores a private key and a public key. The private key and public key form a key pair.

The electronic document management unit 103 may generate an electronic document based on information input through a user interface (not shown). Here, the electronic document may include any one of an Adobe Acrobat document, a Hangul document, and a Microsoft Office document, but is not limited thereto.

The digital signature unit 105 generates a first electronic signature for an electronic document with a private key according to an electronic signature algorithm. In this case, the electronic signature method may follow international standards. Electronic signatures are techniques for verifying that an electronic document has not been falsified or tampered with in its original content (Data origin Authentication) and who is the originator of the signature. Since the electronic signature has a function of proving the data generated by itself to a large number of others, a secret key, ie, a private key, that only the user knows in the signature generation process is used. In addition, since the digital signature must be verifiable by a large number of others, the public key is used in the verification process.

According to an embodiment, the electronic signature unit 105 may encrypt a hash value of an electronic document with a private key.

The electronic signature unit 105 inserts the generated first electronic signature into the electronic document.

The time stamp processing unit 107 requests and receives a first time stamp from the time stamp server 500. The time stamp includes time information, and the time information is a reliable one authorized by a time authority or the like, and may be provided together with a corresponding time attribute certificate or a time stamp station certificate.

The time stamp processing unit 107 inserts the first time stamp into the electronic document.

The transaction generation unit 109 transmits the electronic document in which the first electronic signature and the first time stamp are inserted to the user terminal 300. Further, an electronic document to which a second electronic signature and a second time stamp are added is received from the user terminal 300. The transaction generating unit 109 generates a transaction including a first electronic signature, a second electronic signature, a first time stamp, and an electronic document in which the second time stamp is inserted. Then, the transaction is transmitted to the blockchain system 400 to request processing of the transaction.

4 is a block diagram showing the configuration of a user terminal according to an embodiment of the present invention.

Referring to FIG. 4, the user terminal 300 includes a key storage unit 301, an electronic signature unit 303, a time stamp processing unit 305, and an electronic document management unit 307.

The key storage unit 301 stores a private key and a public key. The electronic signature unit 303 generates a second electronic signature for an electronic document received from the electronic document management server 100 with a private key. The timestamp processing unit 305 requests issuance of a timestamp for an electronic document to the timestamp server 500, and receives the issued timestamp.

The electronic document management unit 307 is connected to the electronic document management server 100 and receives an electronic document from the electronic document management server 100. Then, the second electronic signature transmitted from the electronic signature unit 303 and the second time stamp transmitted from the time stamp processing unit 305 are inserted into the electronic document, and the electronic document is transmitted to the electronic document management server 100 again.

Here, the key storage unit 301, the electronic signature unit 303, the time stamp processing unit 305, and the electronic document management unit 307 may be mounted in an electronic document management program. The electronic document management program may be an application that operates in conjunction with the electronic document management server 100. The application may be a dedicated smartphone application or a banking application. In the case of a banking application, functions of the key storage unit 301, the electronic signature unit 303, the time stamp processing unit 305, and the electronic document management unit 307 may be added to the existing banking application in a component form.

5 is a flowchart illustrating an electronic document management method according to an embodiment of the present invention. In this case, the same reference numerals are used for the same configurations as those described in FIGS. 1 to 4.

Referring to FIG. 5, the electronic document management server 100 generates an electronic document (S101), and transmits a first timestamp issuance request to the timestamp server 500 at the time of creation (S103). In addition, a first timestamp is received from the timestamp server 500. The first timestamp is generated by the timestamp server 500 based on the detection of a timestamp issuance request by the electronic document management server 100.

The electronic document management server 100 generates a first electronic signature for the electronic document generated in step S101 (S107). The subject of the electronic signature is the original text of the electronic document, and since integrity cannot be guaranteed for portions not included in the scope of the original text, the scope of the original text may be set to the entire document excluding the signature data area and the time stamp area.

The electronic document management server 100 inserts the first timestamp received in step S105 and the first electronic signature generated in step S107 into the electronic document (S109). Then, the electronic document is transmitted to the user terminal 300 to request an electronic signature of the user (S111).

The user terminal 300 requests the time stamp server 500 to issue a second time stamp (S113) and receives (S115).

The user terminal 300 generates a second electronic signature for the electronic document received in step S111 (S117). Then, the user terminal 300 inserts the second time stamp and the second electronic signature into the electronic document (S119). Then, the electronic document is transmitted to the electronic document management server 100 (S121).

The electronic document management server 100 generates a transaction including the electronic document data received in step S121 (S123). Then, the transaction is transmitted to the blockchain system 400 (S125).

The blockchain system 400 stores the received transaction (S125) by the blockchain algorithm (S127). Specifically, the blockchain system 400 transmits the transaction to the blockchain network, so that it is included in the blockchain on the blockchain network and stored in each node 401.

Meanwhile, FIG. 6 is a block diagram showing a hardware configuration of an electronic document management system according to another embodiment of the present invention. The electronic document management system 1, the electronic document management server 100, and the user described in FIGS. 1 to 5 It shows the configuration of the terminal 300.

Referring to FIG. 6, the electronic document management system 700 includes a communication device 701, a memory 703, a storage device 705, and at least one processor 707.

The communication device 701 is connected to at least one processor 707 and transmits and/or receives data through the communication network 200. The memory 703 is connected to at least one processor 707 and stores a program including instructions for executing the configuration and/or method according to the embodiments described with reference to FIGS. 1 to 5. The program is combined with hardware such as the memory 703 and at least one processor 707 to implement the present invention.

The storage device 705 includes information necessary for operation of the electronic document management system 700 and the like. The processor 707 implements the present invention in combination with hardware such as the memory 703 and the storage device 705.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concept of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

Claims (14)

An electronic document management method performed in an electronic document management server operated by at least one processor,
When an electronic document is generated, requesting and receiving an electronic signature for the electronic document from a user terminal, and
Storing an electronic document including the electronic signature in a blockchain
Containing, electronic document management method. In claim 1,
The receiving step,
Generating a first electronic signature of the electronic document creator,
Inserting the first electronic signature into the electronic document,
Transmitting the electronic document in which the first electronic signature is inserted to the user terminal, and
Receiving an electronic document to which a user's second electronic signature is added from the user terminal
Containing, electronic document management method. In claim 2,
The first electronic signature,
The electronic document management method, wherein the private key stored in the electronic document management server is used. In claim 2,
Before the step of transmitting to the user terminal,
At the time when the electronic document is generated, transmitting a first time stamp issuance request to a time stamp server, and receiving a first time stamp from the time stamp server, and
Inserting the first time stamp into the electronic document,
The electronic document transmitted to the user terminal,
The electronic document management method comprising the first electronic signature and the first time stamp. In claim 4,
The step of receiving the electronic document to which the second electronic signature is added,
An electronic document management method for receiving an electronic document to which a second electronic signature generated by the user terminal and a second time stamp issued by the user terminal are added. An electronic document management method performed in a user terminal operated by at least one processor,
Receiving an electronic document from an electronic document management server,
Generating an electronic signature for the electronic document, and
Transmitting the electronic document in which the electronic signature is inserted to the electronic document management server,
The electronic document,
A method of managing electronic documents, stored on the blockchain. In claim 6,
The receiving step,
Receive an electronic document into which an electronic signature electronically signed with the private key of the electronic document management server is inserted,
The transmitting step,
An electronic document management method for transmitting an electronic document to which the electronic signature of the user terminal is additionally inserted, to the electronic document management server. In claim 7,
The receiving step,
The electronic document management server receives an electronic document with a first time stamp issued from the time stamp server,
After the receiving step,
Requesting a second time stamp issuance from the time stamp server to receive a second time stamp,
The transmitting step,
An electronic document management method for transmitting an electronic signature of the electronic document management server, an electronic signature of the user terminal, and an electronic document in which the first time stamp and the second time stamp are inserted. An electronic document management server that inserts a first electronic signature of an electronic document creator and a second electronic signature of a user into an electronic document, and generates a transaction including an electronic document including the first electronic signature and the second electronic signature, And
Blockchain system consisting of a plurality of blockchain nodes and recording the transaction received from the electronic document management server in the blockchain
Containing, electronic document management system. In claim 9,
The electronic document management server,
An electronic document management system for transmitting the electronic document into which the first electronic signature is inserted to a user terminal to request an electronic signature from the user, and to receive an electronic document to which the second electronic signature is added from the user terminal. In claim 10,
The electronic document management server,
Generating the first electronic signature with the private key of the electronic document creator,
The user terminal,
An electronic document management system for generating the second electronic signature with the user's private key. In claim 11,
The private key is,
The electronic document management system that is stored in each of the electronic document management server and the user terminal. In claim 11,
The electronic document management server,
Inserting the first time stamp and the first electronic signature issued at the time the electronic document is created into the electronic document, and transmitting the electronic document including the first time stamp and the second electronic signature to the user terminal And
Receiving from the user terminal the electronic document to which a second time stamp issued by the user terminal and the second electronic signature are added,
An electronic document for generating a transaction based on electronic document data including the first time stamp, the first electronic signature, the second time stamp, and the second electronic signature, and transmitting the transaction to the blockchain system. Management system. In claim 13,
The electronic document management server,
An electronic document management system for requesting the electronic signature and receiving the electronic document by interlocking with the electronic document management program executed in the user terminal.

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