KR20200088586A - Cryptocurrency transaction management method - Google Patents

Abstract

Disclosed is a cryptocurrency transaction management method capable of preventing illegality-based transactions. The cryptocurrency transaction management method comprises: a step in which an arbitrary node D1 acquires transaction illegality information on a transaction A between an electronic wallet A and an electronic wallet B; a step in which the node D1 uses the transaction illegality information to obtain an agreement on whether to disclose information (hereafter, referred to as trader information) on a participant of the transaction A from N nodes (N is an integer higher than or equal to 2); and a step in which the node D1 discloses the trader information to the outside if the node D1 obtains an agreement on whether to disclose the trader information from the N nodes. Accordingly, a user who wants to carry out a transaction in a blockchain based on illegality is worried that personal information of the user is disclosed to the outside to be forced not to carry out the corresponding transaction.

Description

Cryptocurrency transaction management method {CRYPTOCURRENCY TRANSACTION MANAGEMENT METHOD}

The present invention relates to a method for managing a cryptocurrency transaction, and more particularly, to a method for managing a cryptocurrency transaction that manages a transaction of a cryptocurrency performed based on blockchain technology.

Bitcoin is a cryptocurrency of the first-generation blockchain technology that introduces a peer-to-peer system of distributed ledger that is not managed by the central server. In addition, Ethereum is a blockchain second-generation technology cryptocurrency that introduces a distributed computing platform to implement SmartContracts functions.

In such a blockchain platform, the data (distribution) of data is distributed to each block (server) by members (nodes) participating in the system, making it virtually impossible to falsify data, and members can retain their distributed information. Server administrators also have unnecessary advantages.

On the other hand, such a blockchain platform requires an electronic wallet of the blockchain to store cryptocurrencies associated with blockchain technology or perform transactions. In other words, transactions on the blockchain platform take place between the electronic wallet and the electronic wallet. For example, a portion of the cryptocurrency stored in the electronic wallet A opened by the user A may be transmitted to the electronic wallet B opened by the user B.

As such, transactions on the blockchain platform are performed between electronic wallets, so a third party cannot know who is the participant of the transaction. This allows transactions on the blockchain platform to be used when remitting illegal funds such as drug payments and private game payments. Therefore, when the transaction on the blockchain platform is based on illegality, a method for preventing it needs to be studied.

Accordingly, the present invention is to solve this problem, and an object of the present invention is to provide a method for managing a cryptocurrency transaction that can prevent the transaction of cryptocurrency based on illegality.

A cryptocurrency transaction management method according to an embodiment of the present invention includes the steps of: acquiring transaction illegality information for a transaction A made by an arbitrary node D1 between the electronic wallet A and the electronic wallet B; The node D1 uses the transaction illegality information to obtain consent from N nodes (where N is an integer greater than or equal to 2) to disclose information about the participant in the transaction A (hereinafter referred to as'trader information'). step; And when the node D1 obtains an agreement as to whether or not to disclose the trader information from the N nodes, publishing the trader information to the outside.

Participants of the transaction A may include at least one of a user who opened the electronic wallet A and a user who opened the electronic wallet B.

The step of obtaining the consent of the node D1 to disclose the trader information may include: determining whether the node D1 needs to disclose the trader information using the transaction illegality information; When the node D1 determines that disclosure of the trader information is necessary, transmitting a consent request signal for the disclosure of the trader information to the N nodes; And each of the N nodes may include the step of transmitting the node D1 the result of determining whether to agree to the disclosure of the trader information in response to the consent request signal.

In the step where the node D1 transmits the consent request signal to the N nodes, the node D1 may transmit the transaction illegality information to the N nodes together with the consent request signal.

In the step of transmitting the node D1 to each of the N nodes for the consent determination result, each of the N nodes generates the consent determination result using the transaction illegality information according to the consent request signal To do; And each of the N nodes may include the step of transmitting the node D1 the determination result of the consent.

The step in which the node D1 discloses the trader information to the outside includes: determining whether the trader information is disclosed by the node D1 using N consent determination results received from the N nodes; And when the node D1 decides to disclose the trader information, publishing the trader information to the outside.

In the step of determining whether the trader information is disclosed by the node D1, when the node D1 receives M or more consents (where M is an integer greater than 0 and not greater than N) according to the N consent determination results. , If it is decided to disclose the trader information, and if less than M consents are received, it may be decided to disclose the trader information.

When the node D1 discloses the trader information to the outside, the node D1 may transmit the trader information to the N nodes.

Alternatively, in the step in which the node D1 discloses the trader information to the outside, the node D1 may post the trader information on at least one public site.

Alternatively, in the step in which the node D1 discloses the trader information to the outside, the node D1 may transmit to the terminal of the user who will deal with the participants of the transaction A.

Alternatively, in the step in which the node D1 discloses the trader information to the outside, the node D1 may transmit to the terminal of the person in charge of monitoring the transaction of the cryptocurrency.

The cryptocurrency transaction management method further includes the step of imposing a penalty (hereinafter referred to as a'transaction penalty') on the transaction A to the participants of the transaction A by the node D1 using the transaction illegality information. can do.

The transaction penalty includes a first penalty for stopping a transaction by at least one of the electronic wallet A and the electronic wallet B, a second penalty for canceling the transaction A, and a third penalty for recovering the transaction amount according to the transaction A, And a fourth penalty for recovering a fine imposed from at least one of the electronic wallet A and the electronic wallet B.

The step of imposing the transaction penalty by the node D1 on a participant in the transaction A may include: obtaining the consent of the node D1 from the N nodes about whether to impose the transaction penalty by using the transaction illegality information; And when the node D1 obtains consent from the N nodes about whether to impose the transaction penalty, imposing the transaction penalty on a participant in the transaction A.

According to the cryptocurrency transaction management method according to the present invention, when any node confirms illegality in a transaction using blockchain technology, after obtaining the consent of other nodes, information about the participants of the transaction is disclosed to the outside By doing so, a user who wants to perform a transaction on the block chain based on illegality is concerned that his personal information will be disclosed to the outside, and can be forced not to perform the transaction.

In addition, when an arbitrary node confirms illegality in a transaction using a blockchain technology, after obtaining the consent of other nodes, a penalty is imposed on the participants of the transaction, thereby further preventing the transaction from being performed.

1 is a conceptual diagram showing a cryptocurrency trading system according to an embodiment of the present invention.
FIG. 2 is a conceptual diagram for explaining a process of performing transaction A among blockchain transaction methods using the cryptocurrency trading system of FIG. 1.
3 is a conceptual diagram illustrating an example of a new blockchain created in the process of FIG. 2.
4 is a conceptual diagram illustrating an example of electronic wallets updated in the process of FIG. 2.
FIG. 5 is a conceptual diagram illustrating a process of obtaining consent from N nodes by determining whether it is necessary to disclose trader information among the blockchain transaction methods using the cryptocurrency transaction system of FIG. 1.
FIG. 6 is a conceptual diagram for explaining a process of determining whether to disclose trader information among blockchain transaction methods using the cryptocurrency trading system of FIG. 1.
FIG. 7 is a conceptual diagram for explaining a process of imposing a transaction penalty among blockchain transaction methods using the cryptocurrency trading system of FIG. 1.
8 to 11 are conceptual views for explaining specific examples of the transaction penalty imposed in the process of FIG. 7.

The present invention may be variously modified and may have various forms, and specific embodiments will be illustrated in the drawings and described in detail in the text.

However, this is not intended to limit the present invention to a specific disclosure form, and it should be understood that all modifications, equivalents, and substitutes included in the spirit and scope of the present invention are included. Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from other components. For example, the first component may be referred to as a second component without departing from the scope of the present invention, and similarly, the second component may also be referred to as a first component.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "include" or "have" are intended to indicate the presence of a feature, number, step, action, component, part, or combination thereof described in the specification, but one or more other features or It should be understood that the presence or addition possibilities of numbers, steps, actions, components, parts or combinations thereof are not excluded in advance.

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

1 is a conceptual diagram showing a cryptocurrency trading system according to an embodiment of the present invention.

Referring to FIG. 1, the cryptocurrency transaction system according to the present embodiment is a system capable of performing cryptocurrency transactions based on blockchain technology, and includes a plurality of nodes 10 and a plurality of user terminals 20 ).

The nodes 10 may be computer systems connected to each other through a network, for example, server systems. At this time, each of the nodes 10 stores its own transaction book. In addition, each of the nodes 10 may perform a block generation function capable of generating and sharing a block, and a block verification function capable of feedback after verifying the received block.

Each of the user terminals 20 is a terminal that can exchange signals with at least one of the nodes 10, for example, a desktop computer, a laptop computer, a smartphone, a tablet PC, and the like. Each of the user terminals 20 may generate transaction information and store it in the nodes 10.

Hereinafter, a blockchain transaction method will be described in detail by using the cryptocurrency transaction system described above.

FIG. 2 is a conceptual diagram for explaining the process of performing transaction A among the block chain trading methods using the cryptocurrency trading system of FIG. 1, and FIG. 3 is a conceptual diagram showing an example of a new blockchain created in the process of FIG. 4 is a conceptual diagram illustrating an example of electronic wallets updated in the process of FIG. 2.

2, 3 and 4, in the blockchain transaction method according to the present embodiment, first, a user terminal A owned by any user A accesses any one of the nodes 10, An electronic wallet A may be generated, and a user terminal A owned by any user B may access any one of the nodes 10 to generate an electronic wallet B. In this way, a plurality of electronic wallets opened by a plurality of users may be generated.

Subsequently, after the user terminal A generates a transaction A for remitting at least a part of the cryptocurrency stored in the electronic wallet A, for example, cryptocurrency 10,000 to the electronic wallet B, among the plurality of nodes 10 It can be sent to any node, for example node D1.

Subsequently, the node D1 may generate a block A using the transaction A. At this time, the block A may include the transaction A as well as information about other transactions. Here, the block A may include a block header and a block body. The block header may include a corresponding block representative value that can represent the corresponding block, and a previous block representative value that can represent the previous block in which the corresponding block was immediately generated. For example, the corresponding block representative value may be a corresponding block hash value generated through a hash function, and the previous block representative value may be a previous block hash value generated through a hash function. The block body may include the transaction A and other transactions.

Subsequently, each of the nodes 10 may generate a verification result by performing verification on the transmitted block A, and then feed back the verification result to the node D1.

Subsequently, the node D1 may use the verification results to determine whether or not the block A has passed verification, and when the determination result is verification verification, the block A may be propagated to the nodes 10.

Subsequently, each of the nodes 10 connects the block A received from the node D1 to a previously stored block chain to create and store a new block chain, and writes it in its own transaction book using the transaction A It is possible to update the information. As a result, each of the nodes can update the amount of cryptocurrency stored in each of the electronic wallet A and the electronic wallet B. For example, the amount of cryptocurrency stored in the electronic wallet A may decrease by 10,000, and the amount of cryptocurrency stored in the electronic wallet B may increase by 10,000.

5 is a conceptual diagram for explaining a process of obtaining consent to N nodes by determining whether to disclose trader information among blockchain transaction methods using the cryptocurrency trading system of FIG. 1, and FIG. 6 is a cryptocurrency of FIG. 1 It is a conceptual diagram to explain the process of deciding whether to disclose trader information among blockchain trading methods using a transaction system.

5 and 6, any one of the nodes, for example, the node D1 may acquire transaction illegality information for the transaction A made between the electronic wallet A and the electronic wallet B. have. In this case, the transaction A may be, for example, a transaction performed when remitting illegal funds, such as a drug price or a meandering game price. On the other hand, the node D1 may obtain the transaction illegality information from the person concerned with the transaction A or an indirect fund tracking manager.

Subsequently, the node D1 uses the transaction illegality information to agree on whether to disclose information about the participants of the transaction A (hereinafter referred to as'trader information') from N nodes (N is an integer of 2 or more). Can be obtained. Here, the participant of the transaction A may include at least one of the user A who opened the electronic wallet A and the user B who opened the electronic wallet B. Further, the trader information may include at least one of information on the electronic wallet A, information on the user A, information on the electronic wallet B, and information on the user B.

In detail, the node D1 may use the transaction illegality information to determine whether it is necessary to disclose the trader information. That is, the node D1 may analyze the transaction illegality information and determine whether it is necessary to disclose the transaction information.

Subsequently, if the node D1 determines that the trader information needs to be disclosed, an agreement request signal for the release of the trader information can be generated and transmitted to the N nodes. At this time, the node D1 may transmit the transaction illegality information to the N nodes together with the consent request signal.

Thereafter, each of the N nodes may transmit the node D1 as a result of determining whether or not to consent to the disclosure of the trader information in response to the consent request signal. For example, each of the N nodes may analyze the transaction illegality information in response to the consent request signal, generate the consent decision result, and transmit the consent decision result to the node D1. have.

Subsequently, when the node D1 obtains consent for the disclosure of the trader information from the N nodes, the trader information may be disclosed to the outside.

Specifically, the node D1 may determine whether to disclose the trader information by using N consent determination results received from the N nodes. At this time, when the node D1 receives M or more consents (however, M is greater than 0 and an integer of N or less) according to the N consent determination results, it is decided to disclose the trader information, and less than M With the consent of, you can decide to keep the trader information private. For example, M may be an integer rounded to 1/2 of N.

Thereafter, when the node D1 decides to disclose the trader information, when the node D1 acquires and stores the trader information, the trader information may be disclosed to the outside.

As a method for the node D1 to disclose the trader information to the outside, first, the node D1 may transmit and share the trader information to the N nodes. That is, when the trader information is stored only in the node D1, the node D1 may transmit the trader information to the N nodes for sharing. As such, as the trader information is shared with the N nodes, the N nodes can monitor future transactions for the participants of the transaction A through the trader information.

Alternatively, the node D1 may post the trader information on at least one public site. As a result, the trader information may be shared with external users accessing the public site.

Alternatively, the node D1 may transmit to the user's terminal that will deal with the participants of the transaction A. As a result, it is possible to recognize in advance the risk of the transaction with the participant of the transaction A to the user who will be dealt with the participant of the transaction A.

Alternatively, the node D1 may transmit the terminal of the person in charge of monitoring the transaction of the cryptocurrency, for example, the terminal of the person in charge of the assessment authority. As a result, the legal responsibility for the illegality of the transaction A can be held.

7 is a conceptual diagram for explaining a process of imposing a transaction penalty among the blockchain transaction methods using the cryptocurrency trading system of FIG. 1, and FIGS. 8 to 11 illustrate specific examples of the transaction penalty imposed in the process of FIG. It is a conceptual diagram for doing.

7 to 11, the node D1 may impose a penalty according to the illegality of the transaction A (hereinafter referred to as a “transaction penalty”) to the participants of the transaction A using the transaction illegality information. .

Specifically, the node D1 may obtain agreement on whether to impose the transaction penalty from the N nodes using the transaction illegality information. For example, if the node D1 determines whether or not the transaction penalty is required by using the transaction illegality information, and if it is determined that the transaction penalty is required, the node may request a penalty consent request for the transaction penalty. It can be generated and transmitted to the N nodes. Subsequently, each of the N nodes analyzes the transaction illegality information in response to the penalty consent request signal, and then generates a result of judging whether or not to agree to the imposition of the penalty of penalties, and the result of determining whether to agree to the penalty. Node D1 may be transmitted.

Subsequently, when the node D1 obtains an agreement as to whether or not to impose the transaction penalty from the N nodes, the transaction penalty may be imposed on the participants of the transaction A.

Specifically, the node D1 may determine whether to impose the transaction penalty using the N penalty consent determination results received from the N nodes. At this time, if the node D1 has received K or more consents (where K is an integer greater than 0 and not more than N) according to the determination results of the N penalty consents, it is decided to impose the transaction penalty, and K If less consent is given, it may be decided not to impose the above trading penalty. At this time, K is an integer greater than M, for example, may be an integer rounded from 2/3 of N.

On the other hand, the transaction penalty is the first penalty for stopping the transaction by at least one of the electronic wallet A and the electronic wallet B, the second penalty for canceling the transaction A, the transaction amount according to the transaction A as shown in FIG. It may include a third penalty for recovering, and at least one of a fourth penalty for recovering a fine imposed from at least one of the electronic wallet A and the electronic wallet B as shown in FIG. 11.

First, as shown in FIG. 8, when the first penalty is imposed, the transaction of the cryptocurrency using the electronic wallet A and the electronic wallet B may be stopped for a certain period.

In addition, when the second penalty is imposed as shown in FIG. 9, the node D1 creates a block including the transaction B for canceling the transaction A and propagates it to the nodes 10 to form a new blockchain. While you can update your own transaction book.

Also, as shown in FIG. 10, when the third penalty is imposed, the node D1 generates a block including the transaction C for recovering the cryptocurrency transaction amount by the transaction A and propagates it to the nodes 10 By forming a new blockchain, you can update your own transaction book. At this time, the recovered cryptocurrency can be stored in a separate administrator electronic wallet.

Also, as shown in FIG. 11, when the fourth penalty is imposed, the node D1 generates a block including transaction D for recovering a fine imposed from at least one of the electronic wallet A and the electronic wallet B, and By propagating to the nodes 10, it is possible to update its own transaction book while forming a new blockchain. At this time, the recovered cryptocurrency can be stored in a separate administrator electronic wallet.

As described above, according to this embodiment, when any node among the nodes 10 confirms illegality in a transaction using a blockchain technology, after obtaining the consent of other nodes, information about the participants of the transaction is externally By disclosing, a user who wishes to perform a transaction on a blockchain based on illegality is concerned that his personal information will be disclosed to the outside, and may be forced to not perform the transaction.

In addition, when an arbitrary node confirms illegality in a transaction using a blockchain technology, after obtaining the consent of other nodes, a penalty is imposed on the participants of the transaction, thereby further preventing the transaction from being performed.

In the detailed description of the present invention described above, it has been described with reference to preferred embodiments of the present invention, but those skilled in the art or those skilled in the art will appreciate the spirit of the present invention as set forth in the claims below. And it will be understood that various modifications and changes can be made to the present invention without departing from the scope of the technology.

10: node 20: user terminal

Claims (14)

An arbitrary node D1 obtaining transaction illegality information for transaction A made between the electronic wallet A and the electronic wallet B;
The node D1 uses the transaction illegality information to obtain consent from N nodes (where N is an integer greater than or equal to 2) to disclose information about the participant in the transaction A (hereinafter referred to as'trader information'). step; And
And when the node D1 obtains consent from the N nodes whether to disclose the trader information, publishing the trader information to the outside. According to claim 1,
Participants in transaction A above
A method of managing a cryptocurrency transaction comprising at least one of a user who opened the electronic wallet A and a user who opened the electronic wallet B. According to claim 1,
The step of obtaining the consent of the node D1 to disclose the trader information is
Determining, by the node D1, whether to disclose the trader information using the transaction illegality information;
When the node D1 determines that disclosure of the trader information is necessary, transmitting a consent request signal for the disclosure of the trader information to the N nodes; And
And transmitting the node D1 as a result of determining whether or not to consent to the disclosure of the trader information, each of the N nodes in response to the consent request signal. According to claim 3,
In the step where the node D1 transmits the consent request signal to the N nodes,
Cryptocurrency transaction management method characterized in that the node D1 transmits the transaction illegality information to the N nodes together with the consent request signal. According to claim 4,
Each of the N nodes transmits the node D1 as a result of determining whether to agree or not.
Generating, by each of the N nodes, the result of the consent determination using the transaction illegality information according to the consent request signal; And
And transmitting the node D1 to each of the N nodes to determine whether to agree or not. According to claim 3,
The step of the node D1 exposing the trader information to the outside is
Determining, by the node D1, whether to disclose the trader information using N consent determination results received from the N nodes; And
And when the node D1 decides to disclose the trader information, publishing the trader information to the outside. The method of claim 6,
In the step of determining whether the node D1 discloses the trader information,
When the node D1 receives M or more consents (however, M is an integer greater than 0 and less than N) according to the determination results of the N consents, it is decided to disclose the trader information, and less than M consents If received, cryptocurrency transaction management method characterized in that it is determined to disclose the trader information. The method of claim 6,
In the step where the node D1 discloses the trader information to the outside,
Cryptocurrency transaction management method characterized in that the node D1 transmits the trader information to the N nodes. The method of claim 6,
In the step where the node D1 discloses the trader information to the outside,
A method for managing cryptocurrency transactions, wherein the node D1 posts the trader information on at least one public site. The method of claim 6,
In the step where the node D1 discloses the trader information to the outside,
Cryptocurrency transaction management method characterized in that the node D1 transmits to the terminal of the user to be dealt with the participants of the transaction A. The method of claim 6,
In the step where the node D1 discloses the trader information to the outside,
Cryptocurrency transaction management method characterized in that the node D1 is transmitted to the terminal of the person in charge of monitoring the transaction of the cryptocurrency. According to claim 1,
The node D1 further comprises the step of imposing a penalty according to the illegality of the transaction A (hereinafter referred to as a'transaction penalty') to the participants of the transaction A using the transaction illegality information. How to manage transactions. The method of claim 12,
The above trading penalty
The first penalty for stopping the transaction by at least one of the electronic wallet A and the electronic wallet B, the second penalty for canceling the transaction A, the third penalty for recovering the transaction amount according to the transaction A, and the electronic wallet And at least one of a fourth penalty for recovering a fine imposed from at least one of A and the electronic wallet B. The method of claim 12,
The step of imposing the transaction penalty by the node D1 on the participant of the transaction A is
Obtaining, by the node D1, whether the transaction penalty is imposed from the N nodes using the transaction illegality information; And
And when the node D1 obtains consent from the N nodes about whether to impose the transaction penalty, imposing the transaction penalty on a participant in the transaction A.

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