KR20240018794A - Device and method for processing electronic document nft - Google Patents

Abstract

An electronic document NFT processing device according to an embodiment of the present invention includes a communication module; Memory where the electronic document NFT creation program is stored; It includes a processor that executes the electronic document NFT creation program. At this time, the electronic document NFT creation program receives information about the electronic document and a request for NFT processing of the electronic document from the user terminal according to the execution of the processor, and a token that identifies the electronic document according to the NFT processing request. A step is performed to request NFT minting for the electronic document by generating identification information and transmitting the information about the electronic document and the token identification information to a blockchain network, where the token identification information is a basic ID where the basic ID is stored. It includes a first field, a second field in which a sub-ID that changes according to the update of the electronic document is stored, and a third field in which the sub-ID of the electronic document NFT just before the update of the electronic document is stored.

Description

Electronic document NFT processing device and method {DEVICE AND METHOD FOR PROCESSING ELECTRONIC DOCUMENT NFT}

The present invention relates to an apparatus and method for processing NFT conversion of electronic documents.

Since blockchain was recently developed as a technology to provide decentralized digital currency, various forms of new blockchain technology have been researched. Blockchain technology is based on the P2P method and stores the data to be managed in a distributed data storage environment called a 'block', which is formed by connecting small data in the form of a linked list, preventing it from being modified arbitrarily, and allowing anyone to search the data. It is a technology that makes it possible. With this structure, the blockchain network itself can provide trust without the intervention of a trusted third party. In particular, the blockchain system is a P2P highly available system that provides functions that ensure that data once created cannot be changed (integrity and irreversibility). Starting with Bitcoin, the first application, Ethereum, which implemented smart contracts, was developed, and various technologies are still being combined and researched.

Meanwhile, as non-face-to-face services have recently increased, demand for non-face-to-face contract technology is increasing, and blockchain technology is being researched in various forms as a technology to improve security during the contract process and contract storage process. It is becoming. In particular, the concept of converting documents into NFTs and using them to store contracts using NFT (Non Fungible Token) technology is being studied.

NFT refers to a virtual token that proves the owner of various forms of digital content using blockchain technology. Typically, the URL for digital content such as video or music is stored in a token and is used to indicate originality and ownership. If individual documents are converted into NFTs using this NFT technology, security can be improved for contracts, etc.

In this way, if you make an electronic document into an NFT, you can specify information about when the document was registered on the blockchain due to the nature of the blockchain, and as a result, you can achieve the effect of stamping the electronic document with a timestamp. However, this unique advantage of NFT can be a disadvantage if the contents of the document need to be updated. This is because documents already registered on the blockchain cannot be changed. When you want to update a document, you inevitably have to register the updated document on the blockchain. In this case, the disadvantage is that there is no way to track whether an updated version of the previous document exists from data on the blockchain regarding the previous document.

Accordingly, the present invention proposes NFT blockchain technology that allows tracking the change history and changes of NFT electronic documents.

Republic of Korea Patent No. 10-2294571 (Title of invention: Permissioned blockchain system supporting non-fungible tokens)

In order to solve the above-described problems, the present invention seeks to provide an electronic document NFT processing device and method that generates a link structure that can check the update history of the electronic document during the NFT processing of the electronic document.

However, the technical challenge that this embodiment aims to achieve is not limited to the technical challenges described above, and other technical challenges may exist.

An electronic document NFT processing device according to an embodiment of the present invention includes a communication module; Memory where the electronic document NFT creation program is stored; It includes a processor that executes the electronic document NFT creation program. At this time, the electronic document NFT creation program receives information about the electronic document and a request for NFT processing of the electronic document from the user terminal according to the execution of the processor, and a token that identifies the electronic document according to the NFT processing request. A step is performed to request NFT minting for the electronic document by generating identification information and transmitting the information about the electronic document and the token identification information to a blockchain network, where the token identification information is a basic ID where the basic ID is stored. It includes a first field, a second field in which a sub-ID that changes according to the update of the electronic document is stored, and a third field in which the sub-ID of the electronic document NFT just before the update of the electronic document is stored.

In addition, an electronic document NFT processing method using an electronic document NFT processing device according to an embodiment of the present invention includes receiving information about the electronic document and a request for NFT processing of the electronic document from a user terminal; Generating token identification information identifying the corresponding electronic document in response to the NFT processing request; And requesting NFT minting for the electronic document by transmitting information about the electronic document and the token identification information to a blockchain network. At this time, the token identification information is a first field where the basic ID is stored, a second field where the sub-ID that changes according to the update of the electronic document is stored, and a third field where the sub-ID of the electronic document NFT just before the update of the electronic document is stored. Includes.

According to one embodiment of the present invention, after creating an electronic document as an NFT, even information about the update of the electronic document can be managed through a blockchain. In other words, the sub-ID that changes according to the update of the electronic document and the sub-ID of the electronic document NFT just before the update of the electronic document are stored in the token identification information included in the electronic document NFT, so that the change process of each electronic document can be tracked. A link structure can be provided.

Through this, it is possible to check whether each electronic document is the original document or whether it has been updated based on the original document, and further, it is possible to check whether it is the most recently updated document among the updated documents.

Figure 1 shows the configuration of an electronic document NFT management system according to an embodiment of the present invention.
Figure 2 is a block diagram showing the configuration of an electronic document NFT processing device 100 according to an embodiment of the present invention.
Figure 3 is a flowchart showing a method for generating an electronic document NFT according to an embodiment of the present invention.
Figure 4 is a conceptual diagram for explaining the process of processing an electronic document into NFT according to an embodiment of the present invention.
Figures 5 to 7 show specific examples of token identification information used in the electronic document NFT creation process according to an embodiment of the present invention.

Below, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention. However, the present invention may be implemented in many different forms and is not limited to the embodiments described herein. In order to clearly explain the present invention in the drawings, parts that are not related to the description are omitted, and similar parts are given similar reference numerals throughout the specification.

Throughout the specification, when a part is said to be “connected” to another part, this includes cases where it is “directly connected” and cases where it is “electrically connected” with another element in between. Additionally, when a part "includes" a certain component, this means that it may further include other components, rather than excluding other components, unless specifically stated to the contrary.

Figure 1 shows the configuration of an electronic document NFT management system according to an embodiment of the present invention.

The electronic document NFT management system 10 includes a plurality of user terminals 400 and 402, an electronic document NFT processing device 100 that performs processing related to electronic document NFT creation at the request of the user terminals 400 and 402, and an electronic document NFT processing device 100. It includes a content management server 200 that manages information about content to be NFTized at the request of the document NFT processing device 100, and a blockchain network 300 that performs NFT minting processing on the content.

The user terminal 400 accesses the electronic document NFT processing device 100 and requests NFT processing for the electronic document. At this time, information about the electronic document subject to NFT processing is input through the user terminal 400. The user terminal 400 may be implemented as a computer or portable terminal that can access the electronic document NFT processing device 100 through a network. Here, the computer includes, for example, a laptop, desktop, laptop, etc. equipped with a web browser, and the portable terminal is, for example, a wireless communication device that guarantees portability and mobility. , may include all types of handheld-based wireless communication devices such as various smartphones, tablet PCs, smart watches, etc.

The electronic document transmitted from the user terminal 400 is information created or converted into electronic form by an information processing system, or sent, received, or stored, and may be a file created by a word processor or other electronic document creation tool, an e-commerce system, or email. , there are no special restrictions on the form of various texts processed by web-based systems such as messengers or documents written by markup language. For example, electronic contracts entered by each entity during the non-face-to-face contract service process may be subject to NFT.

Additionally, the electronic document transmitted from the user terminal 400 may be a document that is registered for the first time, or may be an electronic document that updates an existing electronic document that has been converted into NFT. Accordingly, the user terminal 400 may additionally provide information on whether this is a document requesting NFT conversion for the first time and token identification information of an existing NFT electronic document. Alternatively, the electronic document NFT processing device 100 responds to the user terminal's request for electronic document NFT processing, whether to request NFT processing for the electronic document for the first time, or, if it is an electronic document that has previously been NFT processed, the electronic document. A query inquiring about token identification information can be sent, and the token identification information for each electronic document can be estimated using the user response.

The electronic document NFT processing device 100 receives a request for NFT processing of an electronic document from the user terminal 400 and generates token identification information identifying each electronic document accordingly. Then, information about the electronic document subject to NFT processing is transmitted to the content management server 200, so that the electronic document and metadata about the electronic document are stored in the content management server 200.

In addition, the electronic document NFT processing device 100 transmits information about the electronic document and token identification information to the blockchain network 300 to request NFT minting for the electronic document. The detailed operation of the electronic document NFT processing device 100 will be examined in detail later.

Meanwhile, the electronic document NFT processing device 100 may operate as a server that provides an electronic document NFT service for each user terminal. Additionally, the electronic document NFT processing device 100 may operate in a cloud computing service model such as SaaS (Software as a Service), PaaS (Platform as a Service), or IaaS (Infrastructure as a Service). Additionally, the electronic document NFT processing device 100 may be built in a private cloud, public cloud, or hybrid cloud.

The content management server 200 stores the electronic document transmitted from the electronic document NFT processing device 100 and manages information about the electronic document. At this time, information about the electronic document may include various information such as the properties of the electronic document, the name of the electronic document, the author of the electronic document, or a description of the electronic document. The content management server 200 is a server where content to be NFT is stored, and may be implemented in the form of a distributed file storage server such as IPFS (InterPlanetary File System), for example. Additionally, metadata containing various information about the electronic document is created and the metadata file is stored. At this time, the metadata may include the properties of the electronic document, the name of the electronic document, the creator of the electronic document or a description of the electronic document, and link information of the location where the electronic document is stored. The metadata file may be stored in the form of a JSON file, but this is an example and the present invention is not limited to this.

At this time, metadata may be encrypted and stored through an encryption technique such as hash processing. Such electronic document content and metadata can be transferred to the blockchain network and used for NFT minting.

The blockchain network 300 uses information about the electronic document to process NFT minting for the electronic document. At this time, the blockchain network 300 issues an NFT using a smart contract, and performs NFT minting to include metadata indicating information about the contents of each electronic document and token identification information. Accordingly, the NFT of each electronic document generated by the blockchain network 300 includes metadata and token identification information for the electronic document.

The blockchain network 300 includes a plurality of blockchain nodes, and each blockchain node stores blockchain data, forms a network with each other, and maintains synchronization with each blockchain data. Each block included in this blockchain data stores one or more transactions. These transactions can be used to exchange virtual currency, deploy smart contracts, or call functions contained in smart contracts.

General users can access blockchain nodes through a user terminal or browser and use information about transactions stored in blockchain data or use smart contracts. For example, the Ethereum blockchain system operates based on a virtual machine such as EVM, and involves the process of creating a transaction, the process of mining a block containing multiple transactions, the process of creating a smart contract, and the process of creating a transaction or smart contract. The process of distributing, executing transactions or smart contracts, etc. are executed by a virtual machine. Meanwhile, for convenience of explanation, an example of the Ethereum blockchain system was presented, and the present invention is not limited to this.

Smart contracts are written and compiled according to a designated coding language, and as a result of compilation, for example, EVM byte code is generated. The smart contract created in this way is included in each transaction, and when a blockchain node mines a block containing these transactions, it is included in a block and distributed to other blockchain nodes.

Meanwhile, according to the ERC-721 standard, which represents the standard for Ethereum-based blockchain technology, 256 bits are used as token identification information (tokenId). The present invention proposes a link structure that can indicate the update status of each electronic document content by utilizing the data packet structure of token identification information.

Figure 2 is a block diagram showing the configuration of an electronic document NFT processing device 100 according to an embodiment of the present invention.

The electronic document NFT processing device 100 may include a communication module 110, a memory 120, a processor 130, and a database (DB: 140).

The communication module 110 provides a communication interface for the user terminal 400, the content management server 200, and the blockchain network 300 in conjunction with the communication network. The communication module 110 may be a device that includes hardware and software required to transmit and receive signals such as control signals or data signals through wired or wireless connections with other network devices.

An electronic document NFT creation program is stored in the memory 120. Such an electronic document NFT generation program receives information about the electronic document and a request for NFT processing of the electronic document from the user terminal 400, and generates token identification information identifying the electronic document in accordance with the NFT processing request. , request NFT minting for the electronic document by transmitting information about the electronic document and token identification information to the blockchain network 300. At this time, information about the electronic document and token identification information are transmitted directly from the electronic document NFT processing device 100 to the blockchain network 300, or from the electronic document NFT processing device 100 to the content management server 200. It can be transmitted to the blockchain network 300 via.

Additionally, the memory 120 may perform a function of temporarily or permanently storing data processed by the processor 130. Here, the memory 120 may include volatile storage media or non-volatile storage media, but the scope of the present invention is not limited thereto.

The processor 130 executes an electronic document NFT creation program to generate token identification information that identifies the electronic document, and allows NFT minting requests to be processed based on this. Here, the processor 130 may include all types of devices that can process data, such as a processor. Here, 'processor' may mean, for example, a data processing device built into hardware that has a physically structured circuit to perform a function expressed by code or instructions included in a program. Examples of data processing devices built into hardware include a microprocessor, central processing unit (CPU), processor core, multiprocessor, and application-specific integrated (ASIC). circuit) and FPGA (field programmable gate array), etc., but the scope of the present invention is not limited thereto.

The database 140 stores various data processed in the electronic document NFT creation process. Various information about the user or information about electronic documents input by the user may be separately managed through the database 140.

Figure 3 is a flowchart showing a method of generating an electronic document NFT according to an embodiment of the present invention, and Figure 4 is a conceptual diagram for explaining the process of processing an electronic document into NFT according to an embodiment of the present invention, and Figures 5 to 5 Figure 7 shows a specific example of token identification information used in the electronic document NFT creation process according to an embodiment of the present invention.

First, the electronic document NFT processing device 100 receives information about the electronic document and a request for NFT processing of the electronic document from the user terminal 400 (S310).

Next, the electronic document NFT processing device 100 generates token identification information for the electronic document (S320).

First, let's look at the structure of token identification information.

The structure of token identification information proposed in the present invention is as shown in FIG. 5. The token identification information includes a first field where the basic ID is stored, a second field where the sub-ID that changes according to the update of the electronic document is stored, and a third field where the sub-ID of the electronic document NFT just before the update of the electronic document is stored. do. ERC-721 only proposes a configuration using 256 bits as token identification information (tokenId), but this is subdivided in the present invention. For example, 128 bits are allocated to the first field, and 64 bits are allocated to the second and third fields respectively, but this can be changed according to the user's selection.

In addition, the electronic document NFT processing device 100 determines whether the request for NFT processing for the electronic document is a request for NFT processing for an electronic document that updates an electronic document that was previously NFT processed, and accordingly, Estimate token identification information. To this end, the previous token identification information is estimated based on information about the electronic document transmitted from the user terminal. Let's look at specific methods for this.

For example, assume that the user terminal 400 requests NFT conversion of a document called NFT2, which is an updated document called NFT1 that previously requested NFT conversion processing. At this time, the NFT processing device 100 may directly manage the token identification information of NFT1, or may transmit the token identification information of NFT1 when the user terminal 400 requests NFT conversion. The electronic document NFT processing device 100 parses the basic ID stored in the first field, the sub ID stored in the second field, and the previous sub ID stored in the third field from the token identification information of NFT1. From this, the electronic document NFT processing device 100 generates updated token identification information of NFT2 as follows.

NFT2’s token identification information = (NFT1’s primary ID, NFT2’s sub-ID, NFT1’s sub-ID)

Here, the sub-ID of NFT2 stored in the second field can be generated through an operation that adds a preset number to the sub-ID of NFT1. Alternatively, while requesting the creation of NFT2 after NFT1 is created, another update document for NFT1 may be created, so the electronic document NFT processing device 100 selects the last created NFT in the blockchain network 300. You can perform the above operation after first performing a search to find out.

The electronic document NFT processing device 100 creates a list of all the cases that can be created after NFT1, and searches the blockchain network 300 to see if an NFT with token identification information including a basic ID exists. , Finally, check whether NFT1 is the most recently created and last NFT for the document.

For example, the basic ID of the electronic document is confirmed based on information about the electronic document transmitted from the user terminal, and an NFT containing this basic ID as token identification information is searched in the blockchain network.

If this is the first NFT processing request for the electronic document, the basic ID is stored in the first field and the initial value is stored in the remaining fields, as shown in (a) of Figures 6 and 7. At this time, if the basic ID is different, it is treated as an NFT for a completely different electronic document.

And, if the request for NFT processing of an electronic document is a request for NFT processing for an electronic document that updates a previously NFT processed electronic document, obtain and obtain token identification information for the previously NFT processed electronic document. Based on the previous token identification information, new token identification information to identify the updated electronic document is generated.

That is, the basic ID stored in the first field of the previous token identification information is stored in the first field of the new token identification information, and the sub ID stored in the second field of the previous token identification information is stored in the third field of the new token identification information. And, the sub ID that reflects the result of the calculation according to the rules preset in the sub ID stored in the second field of the previous token identification information is stored in the second field of the new token identification information. According to this method, the link structure of each electronic document and the update process of each electronic document can be confirmed using only the information stored in each token identification information.

Looking at the example of Figure 6, NFT processing is first performed on a specific electronic document as shown in (a), token identification information is generated, and NFT minting is completed accordingly. Thereafter, when NFT processing is received for a new electronic document in which the corresponding electronic document has been modified, the basic ID 1234 stored in the first field of the previous token identification information is stored in the first field of the new token identification information, and the previous token is stored in the first field of the new token identification information. The sub ID (0) stored in the second field of the identification information is stored in the third field of the new token identification information, and the operation result according to the preset rule is stored in the sub ID (0) stored in the second field of the previous token identification information. The reflected sub ID (1) is stored in the second field of the new token identification information. In this example, as a preset rule, an operation is set to add 1 to the sub ID (0) stored in the second field of the immediately preceding token identification information and store it in the third field.

According to this method, as shown in (c) and (d), token identification information is newly created for a new electronic document that modified the previous electronic document, and NFT minting is processed based on this, so each NFT It is possible to easily identify the link structure of an electronic document that represents the update process of each electronic document using only the embedded token identification information.

Looking at the example of FIG. 7, as a preset rule, an operation is set to add 3 to the sub ID stored in the second field of the immediately previous token identification information and store it in the third field. In this way, each calculated number can be set randomly directly by the system, or can be set to a number set by the user.

According to the structure of this token identification information, if a search is performed using the basic ID, the most recently created electronic document NFT can be identified based on the information stored in the second field.

In addition, if the operation of adding up specific numbers is used as a preset rule, the link structure of the electronic document using token identification information can be confirmed more quickly.

For example, in the embodiment of FIG. 6, the sub ID stored in the second field is increased by 1 for the new updated electronic document, so the token identification information of the NFF to be generated next time is based on the token identification information stored in the smart contract. It becomes possible to estimate. If the basic ID information that can be linked to all NFTs is not searched, it can be guaranteed that the electronic document is the first NFT.

On the other hand, according to this method, there is a disadvantage that a search for the number of sub-IDs stored in the second field is required to find out whether the NFT for the electronic document is the most recent version among the electronic document NFTs that share the basic ID. I can. In particular, if the sub ID is very large, the search may take a considerable amount of time.

To solve this problem, in the present invention, the following restrictions can be placed on the range of the sub-ID of the previous electronic document NFT.

0 < Sub ID - Sub ID of the previous electronic document NFT <= N

Here, N is a constant for constraints, and it is possible to find out if there is an NFT linked to the basic ID by searching N times.

If N is 1, it is possible to update only the immediately previous document. In this case, it is always “Sub ID of the previous electronic document NFT = Sub ID-1”, so you can find out if there is a connected NFT with a single search. You can.

Meanwhile, in the case of N=1, “Sub ID of the previous electronic document NFT = Sub ID-1”, it is also possible to omit the third field.

At this time, the N value can be specified in the smart contract, but the N value can also be expressed by allocating a few bits in the first field where the basic ID is stored. This has the advantage of allowing existing smart contracts to be used as is, and since smart contracts are simplified, gas costs used to perform blockchain transactions can be reduced.

Meanwhile, the NFT processing method for an electronic document according to an embodiment of the present invention may also be implemented in the form of a recording medium containing instructions executable by a computer, such as a program module executed by a computer. Computer-readable media can be any available media that can be accessed by a computer and includes both volatile and non-volatile media, removable and non-removable media. Additionally, computer-readable media may include computer storage media. Computer storage media includes both volatile and non-volatile, removable and non-removable media implemented in any method or technology for storage of information such as computer-readable instructions, data structures, program modules or other data. Although the methods and systems of the present invention have been described with respect to specific embodiments, some or all of their components or operations may be implemented using a computer system having a general-purpose hardware architecture.

The above description is merely an illustrative explanation of the technical idea of the present invention, and various modifications and variations will be possible to those skilled in the art without departing from the essential characteristics of the present invention.

Accordingly, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but are for illustrative purposes, and the scope of the technical idea of the present invention is not limited by these examples. The scope of protection of the present invention shall be interpreted in accordance with the claims below, and all technical ideas within the equivalent scope shall be construed as being included in the scope of rights of the present invention.

100: Electronic document NFT processing device
110: communication module
120: memory
130: processor
140: database

Claims (13)

In the electronic document NFT processing device,
communication module;
Memory where the electronic document NFT creation program is stored;
Including a processor that executes the electronic document NFT creation program,
The electronic document NFT creation program receives information about the electronic document and a request for NFT processing of the electronic document from the user terminal according to the execution of the processor, and identifies a token that identifies the electronic document according to the NFT processing request. Perform the step of requesting NFT minting for the electronic document by generating information and transmitting the information about the electronic document and the token identification information to the blockchain network,
The token identification information includes a first field in which the basic ID is stored, a second field in which a sub-ID that changes according to the update of the electronic document is stored, and a third field in which the sub-ID of the electronic document NFT just before the update of the electronic document is stored. Including, an electronic document NFT processing device. According to claim 1,
The electronic document NFT creation program is
If the request for NFT processing of the electronic document is a request for NFT processing for an electronic document that has updated a previously NFT processed electronic document, token identification information for the previously NFT processed electronic document is obtained, and the obtained Create new token identification information to identify the updated electronic document based on the previous token identification information,
The basic ID stored in the first field of the previous token identification information is stored in the first field of the new token identification information, and the sub ID stored in the second field of the previous token identification information is stored in the third field of the new token identification information. and storing a sub-ID that reflects the result of an operation according to rules preset in the sub-ID stored in the second field of the immediately preceding token identification information in the second field of the new token identification information, NFT processing of the electronic document. Device. According to claim 2,
The electronic document NFT creation program is
If the request for NFT processing of the electronic document is a request for NFT processing for an electronic document that updates a previously NFT processed electronic document, obtain a plurality of token identification information for the previously NFT processed electronic documents; , An electronic document NFT processing device that estimates the immediately preceding token identification information for the most recently updated electronic document in consideration of the preset rules. According to claim 2,
The electronic document NFT creation program is
As the preset rule, an electronic document NFT processing device that applies an operation that adds up the preset values. According to claim 2,
The electronic document NFT creation program is
As the preset rule, an electronic document NFT processing device that applies an operation that adds up the value set by the user. According to claim 1,
The electronic document NFT creation program transmits information about the electronic document to the content management server so that the electronic document and metadata about the electronic document are stored by the content management server,
The metadata includes the properties of the electronic document, the name of the electronic document, the creator of the electronic document, or a description of the electronic document. An electronic document NFT processing device. In the electronic document NFT processing method using an electronic document NFT processing device,
Receiving information about the electronic document and a request for NFT processing of the electronic document from the user terminal;
Generating token identification information identifying the corresponding electronic document in response to the NFT processing request; and
Including requesting NFT minting for the electronic document by transmitting information about the electronic document and the token identification information to a blockchain network,
The token identification information includes a first field in which the basic ID is stored, a second field in which a sub-ID that changes according to the update of the electronic document is stored, and a third field in which the sub-ID of the electronic document NFT just before the update of the electronic document is stored. Including, a method of processing electronic documents into NFT. According to claim 7,
The step of generating the token identification information is,
If the request for NFT processing of the electronic document is a request for NFT processing for an electronic document that has updated a previously NFT processed electronic document, token identification information for the previously NFT processed electronic document is obtained, and the obtained Create new token identification information to identify the updated electronic document based on the previous token identification information,
The basic ID stored in the first field of the previous token identification information is stored in the first field of the new token identification information, and the sub ID stored in the second field of the previous token identification information is stored in the third field of the new token identification information. and storing a sub-ID that reflects the result of an operation according to rules preset in the sub-ID stored in the second field of the immediately preceding token identification information in the second field of the new token identification information, NFT processing of the electronic document. method. According to claim 8,
The step of generating the token identification information is,
If the request for NFT processing of the electronic document is a request for NFT processing for an electronic document that updates a previously NFT processed electronic document, obtain a plurality of token identification information for the previously NFT processed electronic documents; , An electronic document NFT processing method that estimates the immediately preceding token identification information for the most recently updated electronic document in consideration of the preset rules. According to claim 8,
The step of generating the token identification information is,
As the preset rule, an electronic document NFT processing method that applies an operation that adds up the preset values. According to claim 8,
The step of generating the token identification information is,
As the preset rule, an electronic document NFT processing method that applies an operation that adds up the values set by the user. According to claim 7,
The step of requesting NFT minting for the electronic document is,
Transmitting information about the electronic document to a content management server so that the electronic document and metadata about the electronic document are stored by the content management server,
The metadata includes the properties of the electronic document, the name of the electronic document, the creator of the electronic document, or a description of the electronic document. An electronic document NFT processing method. A computer-readable recording medium recording a computer program for executing the electronic document NFT processing method according to any one of claims 7 to 12.

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