JP2021015387A - Smart contract system and program - Google Patents

Abstract

To provide a smart contract system and a program that can determine authenticity of a document exchanged online and recommend a proper document if it is false.SOLUTION: A smart contract providing server 1 connects to a network 3 and registers a hash value of electronic document data exchanged between a party A terminal 4 and a party B terminal 5 in a block chain network. When there is an inquiry about the hash value of the document data from a party terminal, the smart contract providing server 1 verifies whether the hash value exists in the block chain network, and determines that the document data is false if the hash value does not exist. If the inquired hash value is not registered, an administrator terminal 2 receives the document data of the hash value from the party terminal, and recommends candidates for the document data presumed to be proper based on the parties between which documents are exchanged, the dates and times, titles, and the like.SELECTED DRAWING: Figure 1

Description

The present invention relates to a smart contract system that guarantees the validity of documents such as contracts concluded online, and in particular, recommends candidates for documents that are presumed to be appropriate for inappropriate documents, and further contracts. It relates to smart contract systems and programs that enable processing based on the above.

[Conventional technology]
In the past, some online documents used blockchain technology to guarantee their legitimacy.
As a technology that can register evidence on the blockchain from an electronic signature system, for example, there is Ethereum.

[Related technology]
As related prior art documents, Japanese Patent Application Laid-Open No. 2018-157432 “Generator, Verification Device, and Program” (Patent Document 1) and Japanese Patent Application Laid-Open No. 2019-057827 “Distributed Authentication System and Program” (Patent Document 2). ), International Publication No. 2017/010455, "Contract Agreement Method, Agreement Verification Method, Contract Agreement System, Agreement Verification Device, Contract Agreement Device, Contract Agreement Program and Agreement Verification Program" (Patent Document 3).

Patent Document 1 describes that the validity of a transaction between terminals is guaranteed by using a blockchain, and a hash value, a private key information for each trader, and transaction identification information are generated.
Patent Document 2 verifies the authenticity of a determination target using a blockchain, and describes that the authenticity of document data can be obtained by matching hash values.
Patent Document 3 describes that the trail of the contract is left on the blockchain, each transaction is chained, and the final consensus terminal generates a transaction to the contract issuing terminal.

JP-A-2018-157432 Japanese Unexamined Patent Publication No. 2019-057827 International Publication No. 2017/010455

However, in the above-mentioned conventional technique, although the authenticity of the document is determined, in the case of a fake document, the document creator or the like cannot find an appropriate document, which is inconvenient.

In addition, in the conventional technology, when the document is a contract or the like, the payment of the contract content is made in the blockchain virtual currency according to the user's instruction, but whether or not the document is a contract is determined. In the case of a contract, there is also a problem that it lacks convenience because it is not automatically paid according to the conditions stipulated by referring to the contract contents.

It should be noted that Patent Documents 1 to 3 do not have a function of determining the authenticity of a document and recommending a candidate document in the case of a false document, and there is no description of determining a contract and performing automatic payment.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a smart contract system and a program that can determine the authenticity of documents exchanged online and recommend appropriate documents if they are false. And.

The present invention also provides a smart contract system and a program that determines whether or not a document is a contract and automatically pays money in accordance with the conditions specified by referring to the contract contents in the case of a contract. The purpose is to do.

The present invention for solving the problems of the above conventional example is a smart contract system having a processing device for determining the authenticity of document data between user terminals, and the processing device hashes the document data from the user terminals. A value is generated and registered in the blockchain network, and the contents of the document data are stored so that it can be referred to from the outside. When a hash value is inquired from the user terminal, is the hash value registered in the blockchain network? It is characterized in that it verifies whether or not it is registered, and if it is registered, the document data corresponding to the hash value is determined to be true, and if it is not registered, the document data corresponding to the hash value is determined to be false.

According to the present invention, in the smart contract system, an administrator terminal for accessing the processing device is provided, and when the administrator terminal receives document data from the user terminal, the administrator terminal accesses the processing device and contains the stored document data. It is characterized in that document data similar to the content of the document data is extracted from the data and notified to the user terminal.

According to the present invention, in the above smart contract system, when the administrator terminal is instructed to pay money for the document data from the user terminal, it is determined whether or not the document data is contract data, and the document data is contract data. In addition, it is characterized in that it reads the conditions for monetary payment specified in the contents of the contract data and executes the payment using the virtual currency of the blockchain according to the conditions.

The present invention is a program executed by a processing device of a smart contract system, in which a processing device generates a hash value for document data from a user terminal, registers it in a blockchain network, and displays the contents of the document data. It is stored so that it can be referred to from the outside, and when a hash value is inquired from the user terminal, it is verified whether or not the hash value is registered in the blockchain network, and if it is registered, the document data corresponding to the hash value is registered. Is determined to be true, and if it is not registered, the document data corresponding to the hash value is determined to be false.

The present invention is a program executed by an administrator terminal that accesses a processing device that operates in the above program, and when the administrator terminal receives document data from a user terminal, it accesses the processing device and is stored. It is characterized in that document data similar to the content of the document data is extracted from the existing document data and notified to the user terminal.

In the above program, the present invention causes the administrator terminal to determine whether or not the document data is contract data when the user terminal instructs the user terminal to pay money for the document data, and when the document data is contract data, The feature is that the conditions for monetary payment specified in the contents of the contract data are read, and the payment is executed using the virtual currency of the blockchain according to the conditions.

According to the present invention, the processing device generates a hash value for the document data from the user terminal, registers it in the blockchain network, stores the content of the document data so that it can be referred to from the outside, and has the hash value from the user terminal. When there is an inquiry, it is verified whether or not the hash value is registered in the blockchain network, and if it is registered, the document data corresponding to the hash value is judged to be true, and if it is not registered, the hash value is determined. Since the smart contract system and program are used to determine the document data corresponding to the value as false, the authenticity of the document is guaranteed, and in the case of false, it is possible to easily find a similar document.

According to the present invention, in the above smart contract system, when the administrator terminal is instructed to pay money for the document data from the user terminal, it is determined whether or not the document data is contract data, and the contract data is used. In some cases, the contract is concluded online because it is a smart contract system and program that reads the monetary payment conditions stipulated in the contents of the contract data and executes payment using blockchain virtual currency according to the conditions. There is an effect that you can smoothly perform from to payment of money.

It is a schematic diagram of this system. It is a figure which shows the hash value registration processing flow of a document. It is a figure which shows the authenticity judgment processing flow of a document. It is a figure which shows the candidate document recommendation processing flow. It is a figure which shows the payment execution processing flow.

Embodiments of the present invention will be described with reference to the drawings.
[Outline of Embodiment]
The smart contract system (the present system) according to the embodiment of the present invention determines the authenticity of documents exchanged online by using blockchain technology, and when the determined documents are false, the documents It recommends documents that are presumed to be appropriate based on the parties, date and time, title, etc. that exchanged the information, and the authenticity of documents such as contracts is guaranteed, and in the case of falsehood, it is possible to easily find the appropriate documents. It can be done.

In addition, this system determines whether or not the document is a contract, etc., and if it is a contract, etc., refers to the contract content and pays money according to the terms of the contract Blockchain virtual currency technology It is executed by using, and it is possible to smoothly carry out from the conclusion of an online contract to the payment of money.

The blockchain technology is a decentralized network called a decentralized ledger technology.
The blockchain has a list of ordered records, called blocks, that grows continuously, and each block contains a time stamp and a link to the previous block. Once recorded, the data in the block cannot be retroactively modified.

[Outline of this system: Fig. 1]
This system will be described with reference to FIG. FIG. 1 is a schematic view of this system.
As shown in FIG. 1, this system basically includes a smart contract providing server 1, an administrator terminal 2, a network 3, a party A terminal 4, and a party B terminal 5.
The smart contract providing server 1, the administrator terminal 2, the party A terminal 4, and the party B terminal 5 (hereinafter collectively referred to as "user terminals") are connected to the network 3.
Although only two user terminals are shown in FIG. 1 for the sake of simplicity, a plurality of user terminals are actually connected.

[Each part of this system: Fig. 1]
Each part of this system will be described in detail.
[Smart contract providing server 1]
The smart contract providing server 1 is a processing device including a control unit 11, a storage unit 12, and an interface unit 13.
The storage unit 12 stores a processing program and document data in PDF format, which will be described later.
The interface unit 13 is an interface connected to the network 3.
The control unit 11 reads the processing program stored in the storage unit 12 and performs the processing described below.

The smart contract providing server 1 connects to the network 3 and performs a process of registering a hash value of electronic document data exchanged between the party A terminal 4 and the party B terminal 5 in the blockchain network.
The document data is, for example, in PDF format, and the PDF format data in which the hash value is registered by the smart contract providing server 1 is also stored in the storage unit 12.

Further, when the smart contract providing server 1 receives an inquiry (input) for a hash value of document data from a user terminal, it verifies whether or not the hash value exists in the blockchain network.
Specifically, if the inquired hash value exists in the blockchain network, the hash value of the document data is registered in the blockchain network, and it is determined that the document data is true and exists. If not, it is determined that the hash value of the document data is not registered in the blockchain network and the document data is false.
Details of the processing in this system will be described later.

[Administrator terminal 2]
The administrator terminal 2 is a computer device, includes a control unit, a storage unit, an interface unit, a display unit, an input unit, and the like, and is connected to the network 3.
Further, the administrator terminal 2 receives the document data of the hash value from the user terminal when the inquired hash value is not registered, and the document data estimated to be appropriate based on the content of the document data. Recommend candidates for.
Further, the administrator terminal 2 determines whether or not the document data is a contract or the like that has been concluded, and if it is a contract or the like, pays money according to the contract conditions using the virtual currency of the blockchain. Execute the process to be performed.

The network 3 assumes the Internet and includes a blockchain network.
The party A terminal 4 is a terminal of one party that exchanges electronic document data.
The party B terminal 5 is a terminal of the other party that exchanges electronic document data.

[Processing details: Figures 2-5]
Next, the processing in this system will be described with reference to FIGS. 2 to 5.
The processing of this system includes hash value registration processing, document authenticity judgment processing, candidate document recommendation processing, payment execution processing, and the like.
Hash value registration processing and document authenticity judgment processing are realized by the control unit 11 of the smart contract providing server 1 reading a processing program from the storage unit 12 and executing it, and the candidate document recommendation processing and payment execution processing are performed. , The control unit of the administrator terminal 2 executes the function.

[Hash value registration process: Fig. 2]
The hash value registration process will be described with reference to FIG. FIG. 2 is a diagram showing a hash value registration processing flow of documents.
In the hash value registration process on the smart contract providing server 1, as shown in FIG. 2, when the document data in PDF format is received from the user terminal, the document data is stored in the storage unit 12 (S1) and the document data is stored. A hash value is generated (S2) and registered in the blockchain network (S3). Then, the hash value registered in the blockchain network is returned to the user terminal (S4).

Further, the hash value can be registered not only in the electronic contract for which the contract has been concluded, but also in the document data in the middle stage of the contract.
However, the document data in the middle stage of the contract is excluded from the target of monetary payment because it is not the contract data for which the conclusion has been completed in the payment execution described later.

[Document authenticity judgment processing: Fig. 3]
The authenticity determination process of the document will be described with reference to FIG. FIG. 3 is a diagram showing a document authenticity determination processing flow.
As shown in FIG. 3, in the document authenticity determination process on the smart contract providing server 1, when there is an inquiry from the user terminal whether or not a hash value is registered on the block chain (S11), the hash value is blocked. Verify whether it is registered in the chain network (S12), and if it is a registered hash value (in the case of Yes), determine that the document data is true (valid) (S13), and it must be the registered hash value. If (No), the document data is determined to be false (S14), and the process is terminated.

[Candidate document recommendation processing: Fig. 4]
The candidate document recommendation process will be described with reference to FIG. FIG. 4 is a diagram showing a candidate document recommendation processing flow. The candidate document recommendation process is performed when it is determined to be "false" in FIG.
As shown in FIG. 4, the candidate document recommendation process on the administrator terminal 2 is determined to be false corresponding to the hash value inquiry from the user terminal when the hash value is not registered. The document data is received and stored in the storage unit (S21).

The administrator terminal 2 searches for and extracts highly similar document data from the date, title, parties, description contents, etc. of the document data (S22), and generates a list of candidate document data for the extracted document data (S22). S23).
Then, the administrator terminal 2 causes the user terminal to display a list of candidate document data, and when the document data is selected from the list, the administrator terminal 2 displays the document data (S24). As a result, the user terminal can easily know the highly similar document data registered in the blockchain network from the document data determined to be "false".

The administrator terminal 2 may directly display the list and the candidate document data on the user terminal, but may notify the list by e-mail and display the document data selected from the list of the e-mails. Good.
Further, even if the document data is not determined to be "false", the user terminal may send the document data to the administrator terminal 2 to recommend the candidate document.

[Payment execution process: Fig. 5]
Next, the payment execution process will be described with reference to FIG. FIG. 5 is a diagram showing a payment execution processing flow.
As shown in FIG. 5, the payment execution process on the administrator terminal 2 determines whether or not there is an instruction to execute payment for the specific document data from the user terminal (S31).
The instruction may be an instruction for individual document data, or may be an instruction for each type of document as an initial setting, or an instruction to make all documents subject to payment execution.

If there is no instruction to execute payment (if No), the process ends, and if there is an instruction to execute payment (if Yes), then the storage unit 12 of the smart contract providing server 1 is accessed to specify a specific document. It is determined whether or not the data is contract data that has been concluded (S32), and if it is not contract data (if No), the process ends.

If the contract data has been concluded in the judgment process S32 (in the case of Yes), the conditions for monetary payment are read by referring to the contract details of the contract data, and payment is made using the blockchain virtual currency according to the conditions. Execute (S33). Then, the administrator terminal 2 notifies the user terminal of the completion of payment based on the contract (S34).

It is possible to decide in advance whether or not to automatically execute payment between user terminals, and it is possible to set or reserve automatic payment execution for each contract.
In addition, if the content of the contract includes a provision that the payment of money is automatically executed or not executed, it is possible to control whether or not the payment is automatically executed with reference to the provision. Is.

[Effect of Embodiment]
According to this system, the smart contract providing server 1 determines the authenticity of the documents exchanged online using the blockchain technology, and when the determined documents are false, the administrator terminal 2 determines the authenticity. , It recommends documents that are presumed to be appropriate based on the party to whom the documents were exchanged, the date and time, the title, etc. It has the effect of being able to find out.

In addition, this system determines whether or not the document is a contract, etc., and if it is a contract, etc., the administrator terminal 2 refers to the contract content and pays money according to the payment conditions of the blockchain. It is executed using the technology of virtual currency, and has the effect of being able to smoothly perform from the conclusion of an online contract to the payment of money.

The present invention is suitable for smart contract systems and programs that can determine the authenticity of documents exchanged online and recommend appropriate documents if they are false.

1 ... Smart contract providing server, 2 ... Administrator terminal, 3 ... Network, 4 ... Party A terminal (user terminal), 5 ... Party B terminal (user terminal), 11 ... Control unit, 12 ... Storage unit, 13 ... Interface Department

Claims (6)

A smart contract system that has a processing device that determines the authenticity of document data between user terminals.
The processing device generates a hash value for the document data from the user terminal, registers it in the blockchain network, stores the contents of the document data so that it can be referred to from the outside, and inquires about the hash value from the user terminal. If there is, it is verified whether or not the hash value is registered in the blockchain network, if it is registered, the document data corresponding to the hash value is determined to be true, and if it is not registered, it is set to the hash value. A smart contract system characterized by determining the corresponding document data as false. An administrator terminal to access the processing device is provided.
When the administrator terminal receives the document data from the user terminal, it accesses the processing device, extracts document data similar to the content of the document data from the stored document data, and sends the user terminal to the user terminal. The smart contract system according to claim 1, wherein the smart contract system is characterized by notifying. When the administrator terminal receives an instruction to pay money for the document data from the user terminal, the administrator terminal determines whether or not the document data is contract data, and if it is contract data, the content of the contract data is added. The smart contract system according to claim 1 or 2, wherein the specified monetary payment conditions are read and payments are made using a blockchain virtual currency in accordance with the conditions. A program that is executed by the processing device of a smart contract system.
The processing device generates a hash value for the document data from the user terminal, registers it in the blockchain network, stores the content of the document data so that it can be referred to from the outside, and inquires about the hash value from the user terminal. And, it is made to verify whether or not the hash value is registered in the blockchain network, and if it is registered, the document data corresponding to the hash value is judged to be true, and if it is not registered, it corresponds to the hash value. A program characterized in that the document data to be processed is judged to be false. A program executed by an administrator terminal that accesses a processing device that operates with the program according to claim 4.
When the administrator terminal receives the document data from the user terminal, the administrator terminal accesses the processing device, extracts the document data similar to the content of the document data from the stored document data, and causes the user terminal to extract the document data. A program characterized by notifying you. When the administrator terminal is instructed to pay money for the document data from the user terminal, it is made to judge whether or not the document data is contract data, and if it is contract data, the content of the contract data is added. The program according to claim 5, wherein the specified monetary payment conditions are read and payment is executed using a blockchain virtual currency in accordance with the conditions.

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