JP2020119078A - Information processing method, information processing apparatus, program, and information processing system - Google Patents

Abstract

To obtain an information processing method, an information processing apparatus, a program, and an information processing system which can accelerate processing of a transaction with an asset different from bitcoin.SOLUTION: A node 10A dealing with an asset different from bitcoin transmits/receives identification information of the asset different from the bitcoin and amount information of the asset different from the bitcoin, to/from a node 10B dealing with the asset different from bitcoin, over a network different from a block chain network where agreements about transactions with assets including bitcoin are reached.SELECTED DRAWING: Figure 1

Description

The present invention relates to an information processing method for trading assets, an information processing device, a program, and an information processing system.

Conventionally, block chain technology is known (for example, nonpatent literature 1). Transaction information representing, for example, a transaction related to Bitcoin is written in each block of the block chain. Then, when a new block including a plurality of transaction information is added to the block chain, an agreement forming process called proof of work (PoW) is performed.

Further, a lightning network is known (for example, Non-Patent Document 2). In the Lightning Network, the majority of Bitcoin transactions occur outside the blockchain. Specifically, in the Lightning Network, only transaction information when a channel is opened and closed between parties of a transaction is written to the blockchain. Therefore, transactions related to Bitcoin are performed at high speed between the parties.

Satoshi Nakamoto, "Bitcoin: A Peer-to-Peer Electronic Cash System", 2008 Joseph Poon, Thaddeus Dryja, "The Bitcoin Lightning Network :Scalable Off-Chain Instant Payments", January 14, 2016 DRAFT Version 0.5.9.2

The Lightning Network described in Non-Patent Document 2 is intended for inputting/outputting the coin amount of bitcoins. Therefore, when an asset different from Bitcoin is traded, it is necessary to write transaction information to the blockchain every time a transaction occurs.

Therefore, every time a transaction for an asset different from that of Bitcoin occurs, it is necessary to go through a consensus building process called PoW, and it takes time to approve the transaction.

The present invention has been made in view of the above circumstances, and provides an information processing method, an information processing device, a program, and an information processing system capable of speeding up the processing of a transaction of an asset different from bitcoin. With the goal.

In order to achieve the above-mentioned object, the information processing method according to the present invention is a blockchain in which a first node, which is an information processing device for trading an asset different from bitcoin, has an agreement regarding trading of an asset including bitcoin. In a network different from the network, the identification information for identifying the asset different from the bitcoin and the bitcoin with the second node which is an information processing device that trades the asset different from the bitcoin It is an information processing method characterized by including a step of transmitting and receiving quantity information representing quantities of different assets.

The present invention further comprises the step of the first node transmitting a signal including the identification information of an asset different from the bitcoin and the amount information of an asset different from the bitcoin to the blockchain network. The step of transmitting and receiving the identification information of the asset different from the bitcoin and the amount information of the asset different from the bitcoin is performed when an agreed signal regarding the transaction is output from the blockchain network. , In a network different from the blockchain network, the first node holds by transmitting and receiving the identification information of an asset different from the bitcoin and the amount information of an asset different from the bitcoin, The amount of assets different from the bitcoins and the amount of assets held by the second node and different from the bitcoins may be updated.

The step of transmitting and receiving the identification information of the asset different from the bitcoin and the amount information of the asset different from the bitcoin according to the present invention is performed directly between the first node and the second node. If no channel is provided, the identification information of the asset different from the bitcoin and the asset different from the bitcoin are passed through a node which is an information processing device different from the first node and the second node. It is possible to transmit and receive the above amount information.

The network different from the blockchain network according to the present invention may be a lightning network.

When the first node according to the present invention opens a channel for trading an asset different from the bitcoin between the first node and the second node, the bitcoin is transferred to a blockchain in the blockchain network. Is written with open transaction information including the identification information of a different asset and the amount information of an asset different from the bitcoin, and the first node of the asset different from the bitcoin with the second node. When closing a channel for trading, close transaction information including the identification information of an asset different from the bitcoin and the amount information of an asset different from the bitcoin is written in the blockchain in the blockchain network. Can be set.

Further, the information processing device of the present invention is an asset different from the bitcoin in a network different from the block chain network in which an agreement regarding the transaction of the asset including the bitcoin is made when the asset different from the bitcoin is traded. A communication unit that transmits and receives identification information for identifying an asset different from the bitcoin and amount information indicating an amount of the asset different from the bitcoin, to and from a second node which is an information processing device for trading It is an information processing apparatus including.

The program according to the present invention uses a computer, in a network different from a blockchain network in which an agreement regarding the transaction of an asset including bitcoin is made when trading an asset different from bitcoin, and an asset different from the bitcoin. A communication unit that transmits and receives identification information for identifying an asset different from the bitcoin and amount information indicating an amount of the asset different from the bitcoin, to and from a second node which is an information processing device for trading It is a program to function as.

An information processing system according to the present invention includes information including a first node, which is an information processing device that transmits and receives an asset different from a bitcoin, and a second node, which is an information processing device that transmits and receives an asset different from the bitcoin. A processing system, wherein the first node and the second node identify an asset different from the bitcoin in a network different from a block chain network in which an agreement regarding the transaction of the asset including the bitcoin is performed. The information processing system is characterized by transmitting and receiving identification information and amount information indicating an amount of an asset different from the bitcoin.

According to the present invention, there is an effect that it is possible to speed up the processing of a transaction of an asset different from bitcoin.

It is a figure which shows an example of schematic structure of the information processing system of this embodiment. It is a figure which shows an example of schematic structure of the node of this embodiment. It is an explanatory view for explaining a block chain network and a lightning network. FIG. 3 is a schematic block diagram of a computer that functions as a node and a block chain node. It is explanatory drawing for demonstrating the process performed by the information processing system of this embodiment. It is explanatory drawing for demonstrating the process performed by the information processing system of this embodiment. It is explanatory drawing for demonstrating the process performed by the information processing system of this embodiment. It is explanatory drawing for demonstrating the process performed by the information processing system of this embodiment. It is explanatory drawing for demonstrating the process performed by the information processing system of this embodiment. It is explanatory drawing for demonstrating one Example of the information processing system of this embodiment. It is explanatory drawing for demonstrating one Example of the information processing system of this embodiment. It is explanatory drawing for demonstrating one Example of the information processing system of this embodiment.

Hereinafter, embodiments will be described in detail with reference to the drawings.

<System configuration of information processing system>

FIG. 1 is a block diagram showing an information processing system 1 of this embodiment. As shown in FIG. 1, the information processing system 1 of the present embodiment is configured to include a plurality of nodes 10A to 10F that trade assets different from bitcoins. The plurality of nodes 10A to 10F are connected by a network 11 such as the Internet. The nodes 10A to 10F are examples of the information processing device of the present disclosure. Note that the node is simply referred to as “node 10” unless a specific node is described.

The node 10 includes a CPU (Central Processing Unit), a ROM (Read Only Memory) that stores programs for implementing each processing routine, a RAM (Random Access Memory) that temporarily stores data, and a memory as a storage unit. , A computer including a network interface and the like. As shown in FIG. 2, the node 10 functionally includes a processing unit 12 and a communication unit 14.

Each of the plurality of nodes 10 trades an asset different from bitcoin. The asset is also called a token.

FIG. 3 shows an explanatory diagram for explaining the block chain network and the lightning network. As shown in FIG. 3, the block chain network L1 is composed of a plurality of block chain nodes 16. A storage unit (not shown) of the block chain node 16 stores a block chain as a distributed ledger.

On the other hand, the lightning network L2 is also composed of a plurality of nodes 10 similarly to the block chain network L1. Each of some of the plurality of nodes 10 also has a function as the block chain node 16.

In the information processing system 1 of the present embodiment, transactions of assets different from bitcoins are performed. In the blockchain network L1, an asset different from bitcoin can be traded by implementing the open asset protocol. Assets different from bitcoins are also called colored coins.

As such, the transaction information for those assets is written to the blockchain like Bitcoin. Assets different from bitcoins are assumed to be associated with assets such as points issued by stores, local currencies, stocks, and deeds of real estate, for example.

Regarding Bitcoin, the Lightning Network enables high-speed transactions. On the other hand, Basis Of Lightning Network Technology (BOLT), which is a standard specification of Lightning Network, cannot process information of assets different from Bitcoin. Transactions of assets different from Bitcoin are treated as illegal transactions on the Lightning Network.

Therefore, for an asset different from Bitcoin, it is necessary to perform consensus processing such as PoW each time a transaction occurs, and it takes time to approve the transaction.

Therefore, in the present embodiment, the specification of BOLT, which is the standard specification of the lightning network, is partially expanded, and further, by conforming to the open asset protocol, transactions of assets different from Bitcoin are accelerated.

Specifically, in the present embodiment, in order to make it possible to trade an asset different from bitcoin in the Lightning network, identification information for identifying the asset to be traded (hereinafter, simply referred to as “asset ID”). .) and amount information indicating the amount of assets (hereinafter, simply referred to as “asset amount information”). This allows the Lightning Network to trade assets different from Bitcoin at high speed.

Each node 10 and each block chain node 16 can be realized by, for example, a computer 70 shown in FIG. The computer 70 includes a CPU 71, a memory 72 as a temporary storage area, and a non-volatile storage unit 73. In addition, the computer 70 includes an input/output interface (I/F) 74 to which an input/output device (not shown) is connected, and a read/write (R/W) unit 75 that controls reading and writing of data with respect to a recording medium. Equipped with. The computer 70 also includes a network I/F 76 connected to a network such as the Internet. The CPU 71, the memory 72, the storage unit 73, the input/output I/F 74, the R/W unit 75, and the network I/F 76 are connected to each other via a bus 77.

The storage unit 73 can be realized by a hard disk drive (HDD), a solid state drive (SSD), a flash memory, or the like. A storage unit 73 serving as a storage medium stores a program that causes the computer 70 to function. The CPU 71 reads the program from the storage unit 73, expands it in the memory 72, and sequentially executes the processes included in the program.

<Operation of information processing system 1>

Next, the operation of the information processing system 1 of this embodiment will be described. First, new assets different from Bitcoin will be issued. For example, when the node 10X tries to issue a new asset, the program corresponding to the processing shown in FIG. 5 is executed. A process for issuing a new asset will be described with reference to FIG.

In step S50, the node 10X transmits a signal regarding an agreement for issuance of a new asset to the block chain network L1 based on the open asset protocol that is a known technique.

In step S52, at least one block chain node 16 of the block chain network L1 receives the signal transmitted from the node 10X in step S50. Then, in each block chain node 16 of the block chain network L1, consensus formation of issuance of a new asset is made based on the open asset protocol. As a result, the issuance of a unique asset that is different from the bitcoin and is performed by the node 10X is completed.

Next, a case where a new asset is traded between the node 10A and the node 10B will be described as an example. Trading of assets between the node 10A and the node 10B is realized by an open asset protocol and payment channel which are known techniques.

Between the node 10A and the node 10B, the ID of the asset and the amount information of the asset are transmitted and received in the lightening network L2 different from the block chain network L1 in which the agreement regarding the transaction of the asset including the bitcoin is performed. The node 10A is an example of the first node of the present disclosure, and the node 10B is an example of the second node of the present disclosure.

When a new asset is traded between the node 10A and the node 10B, the program corresponding to the processing shown in FIG. 6 is executed.

In step S100, the processing unit 12 of the node 10A generates an open channel signal including the ID of the asset to be traded and the amount information of the asset to be traded.

In step S102, the communication unit 14 of the node 10A transmits the open channel signal generated in step S100 to the node 10B.

In step S104, when the communication unit 14 of the node 10B receives the open channel signal transmitted in step S102, the processing unit 12 of the node 10B includes the ID of the asset to be traded and the amount information of the asset to be traded. Generate an accept channel signal.

In step S106, the processing unit 12 of the node 10B controls the communication unit 14 of the node 10B so as to transmit the accept channel signal generated in step S104 to the node 10A.

In step S108, when the communication unit 14 of the node 10A receives the accept channel signal transmitted in step S106, the processing unit 12 of the node 10A includes the ID of the asset to be traded and the amount information of the asset to be traded. Generate an open transaction.

In step S110, the processing unit 12 of the node 10A controls the communication unit 14 of the node 10A so as to transmit the open transaction generated in step S108 to the block chain network L1.

In step S112, when each blockchain node 16 of the blockchain network L1 receives the open transaction transmitted in step S110, PoW as consensus forming processing is executed.

When opening a channel for trading assets between the node 10A and the node 10B, open transaction information including asset ID and asset amount information is written in the blockchain in the blockchain network L1.

Specifically, as shown in FIG. 7, information on open transactions is stored in one block X of the block chain held by each block chain node 16 in the block chain network L1. Then, the consensus building process for the block X is performed by each block chain node 16.

In step S114, when the consensus building process in step S112 is completed, at least one block chain node 16 of the block chain network L1 outputs a signal indicating that the agreement has been completed.

When an agreed signal regarding a transaction is output from the block chain network L1, the Lightning network L2 starts transmitting/receiving the asset ID and the asset amount information between the node 10A and the node 10B. Then, the amount of assets held by the node 10A and the amount of assets held by the node 10B are updated.

In step S116, the communication unit 14 of the node 10A receives the signal indicating the agreement completion transmitted in step S114.

In step S118, the processing unit 12 of the node 10A transmits, to the node 10B, an asset lock signal that is a signal for locking the asset to be traded with the node 10B. The asset lock signal includes asset ID and asset quantity information. The asset lock signal enables trading of assets up to a specific amount between the nodes 10A and 10B.

In step S200, the asset is traded between the node 10A and the node 10B. Step S200 is realized by the processing shown in FIG.

In step S202 of FIG. 8, the processing unit 12 of the node 10A controls the communication unit 14 to transmit the commitment transaction including the asset ID and the asset amount information to the node 10B. The communication unit 14 of the node 10A transmits a commitment transaction including the asset ID and asset amount information to the node 10B.

In step S204, the processing unit 12 of the node 10B controls the communication unit 14 to transmit the commitment transaction including the asset ID and the asset amount information to the node 10A. The communication unit 14 of the node 10B transmits the commitment transaction including the asset ID and the asset amount information to the node 10A.

By exchanging commitment transactions between the nodes 10A and 10B, the amount of assets held by each node is updated.

In addition, when a direct channel is not provided between the node 10A and the node 10B, by a known technique, Hashed Time-Locked Contract (HTLC), a node managed by a third party is used. Assets are traded via channels. For example, when a direct channel is not provided between the node 10A and the node 10B, the asset ID and the asset amount information of the asset are transmitted and received via a node different from the nodes 10A and 10B. ..

Specifically, as shown in FIG. 7, in the lightning network L2, if a direct channel is not provided between the node 10A managed by Alice and the node 10B managed by Bob, the node is A commitment transaction including an asset ID and asset amount information is transmitted and received via a node 10C or the like different from the nodes 10A and 10B.

When the transaction of a predetermined amount of assets is completed between the node 10A and the node 10B, the process shown in FIG. 9 is executed.

In step S300, the processing unit 12 of the node 10A controls the communication unit 14 to send the shutdown message to the node 10B. The shutdown message includes the ID of the asset to be traded and the amount information of the asset to be traded.

In step S302, the processing unit 12 of the node 10B controls the communication unit 14 to send the shutdown message to the node 10A. The shutdown message includes the ID of the asset to be traded and the amount information of the asset to be traded.

In step S304, the processing unit 12 of the node 10A creates a close transaction. The close transaction includes the ID of the asset to be traded and the amount information of the asset to be traded. Further, the signature of the node 10A is attached to the close transaction.

In step S306, the processing unit 12 of the node 10A controls the communication unit 14 to send the close transaction to the node 10B. The communication unit 14 of the node 10A transmits the close transaction to the node 10B.

In step S308, the communication unit 14 of the node 10B receives the close transaction transmitted in step S306. Then, the processing unit 12 of the node 10B adds the signature of the node 10B to the close transaction.

In step S310, the processing unit 12 of the node 10B controls the communication unit 14 of the node 10B so as to transmit the close transaction signed in step S308 to the block chain network L1. The communication unit 14 of the node 10B transmits the closed transaction with the signature of the nodes 10A and 10B to the block chain network L1.

In step S312, each blockchain node 16 that constitutes the blockchain network L1 executes PoW as an agreement forming process.

When the node 10A closes the channel for trading assets with the node 10B, the close transaction information including the asset ID and the asset amount information is written in the block chain in the block chain network L1.

Specifically, as shown in FIG. 7, information on the close transaction is stored in one block X+Y of the block chain held by each block chain node 16 in the block chain network L1. Then, the consensus building process for the block X+Y is performed by each block chain node 16.

When the consensus building process in step S312 is completed, in step S314, at least one block chain node 16 of the block chain network L1 outputs a signal indicating agreement. As a result, between the nodes 10A and 10B, transaction information representing the transaction history of a predetermined amount of assets is stored in the block chain, and it is substantially impossible to tamper with the transaction history of assets.

As described above, according to the information processing system according to the present embodiment, a node, which is an information processing device that transmits and receives an asset different from bitcoin, is an identification information for identifying the asset and the amount of the asset. Is received, and the asset ID and asset amount information are transmitted/received to/from other nodes in a lightning network different from the blockchain network where agreements are made on transactions of assets including bitcoins. .. This enables off-chain settlement of assets that have been deposited in advance on the blockchain, and can speed up transaction processing for assets that are different from bitcoin.

Moreover, by assigning an ID to an asset, transactions of various types of assets can be performed at high speed. In addition, the transaction history of these various types of assets is written to the blockchain, making tampering virtually impossible.

Next, each example of the information processing system of this embodiment will be described.

FIG. 10 is an explanatory diagram for explaining an embodiment of the information processing system of the present invention. As shown in FIG. 10, the node 10X is a server managed by the store S1, the node 10A is a server managed by the store S2, and the node 10B is a server managed by the store S3.

The node 10X managed by the store S1 issues an arbitrary number of assets by a known technique. In this case, the node 10X managed by the store S1 creates a predetermined transaction and then transmits the transaction to the block chain network L1. Then, when the consensus building process with a certain strength is performed by the block chain network L1, the issuance of an original asset by the store S1 is completed.

It is assumed that the node 10A managed by the store S2 and the node 10B managed by the store S3 acquire and hold the assets issued by the store S1 by a known technique.

The node 10A managed by the store S2 uses the technique of this embodiment to generate an open channel signal representing a contract to lock an arbitrary amount of assets. Then, the node 10A managed by the store S2 transmits an open channel signal to the node 10B managed by the store S3. The open channel signal includes the ID of the asset to be traded and asset quantity information.

The node 10B managed by the store S3 receives the open channel signal transmitted from the node 10A managed by the store S2. Then, the node 10B managed by the store S3 uses the technique of this embodiment to generate an accept channel signal. Then, the node 10B managed by the store S3 transmits the accept channel signal to the node 10A managed by the store S2. The accept channel signal includes the ID of the asset to be traded and asset quantity information.

The node 10A managed by the store S2 receives the accept channel signal. Next, the node 10A managed by the store S2 creates an open transaction. The open transaction includes the asset ID and asset quantity information.

Then, the node 10A managed by the store S2 transmits the open transaction to the block chain network L1. Then, when the consensus building process with a certain strength is performed by the block chain network L1, asset trading is performed on the lightning network L2 between the node 10A managed by the store S2 and the node 10B managed by the store S3. ..

The node 10A managed by the store S2 and the node 10B managed by the store S3 use the technique of this embodiment to create a commitment transaction in which the quantity of each asset is rewritten. The commitment transaction includes asset ID and asset quantity information. As a result, on the lightning network L2, asset IDs and asset amount information held by each node are shared.

Then, the node 10A managed by the store S2 or the node 10B managed by the store S3 uses the technology of the present embodiment to generate a shutdown message indicating a contract in which the final asset holding amounts of both sides are recorded, and Lightning Use network L2 to send to the other. The shutdown message includes the asset ID and asset amount information.

The node 10A managed by the store S2 or the node 10B managed by the store S3 uses the technique of the present embodiment to generate its own shutdown message when the shutdown message is received from the other, and uses the lightning network L2. And send it to the other. The shutdown message includes the asset ID and asset amount information.

The node 10A managed by the store S2 or the node 10B managed by the store S3 uses the technique of this embodiment to generate a closed transaction with a signature, and transmits the closed transaction to the other by using the lightning network L2. The close transaction contains the ID of the asset to be traded and asset amount information.

Then, the node 10A managed by the store S2 or the node 10B managed by the store S3, which has received the close transaction, transmits the close transaction with its own signature to the block chain network L1. Then, when the consensus forming process with a certain strength is performed by the block chain network L1, the transaction of assets between the store S2 and the store S3 is completed.

Thereby, the unique asset issued by the store S1 can be traded at high speed between the store S2 and the store S3. Specifically, since it is possible to trade unique assets in the Lightning network L2 without going through the consensus building process by the blockchain network L1, the assets issued by the store S1 can be exchanged between the store S2 and the store S3. You can trade fast.

FIG. 11 is an explanatory diagram for explaining an embodiment of the information processing system of the present invention. As shown in FIG. 11, the node 10A is a server managed by the store S2, the node 10D is a mobile terminal managed by the user U1, and the node 10E is a mobile terminal managed by the user U2. The node 10F is a server managed by the service provider.

The node 10A managed by the store S2 lends the points issued by the store S2 to the node 10D managed by the user U1 and the node 10E managed by the user U2 by a known technique. The node 10A managed by the store S2 holds the same amount of assets as points.

The node 10D managed by the user U1 requests the service execution to the node 10A managed by the store S2 by a communication function using a point owned by itself as a source by a known technique.

In response to a request from the user U1, the node 10A managed by the store S2 moves a predetermined amount of assets to the node 10F managed by a predetermined service provider according to the first embodiment. Then, the node 10F managed by the service provider provides the user U1 with a service according to the acquired amount of the asset by a known technique.

As a result, various services can be provided to the user through different points between different businesses. Specifically, as shown in the second embodiment, by moving the asset to a service provider different from the store S2, the user U1 uses the points lent from the store S2 to receive the service from the service provider. Can receive.

FIG. 12 is an explanatory diagram for explaining an embodiment of the information processing system of the present invention. As shown in FIG. 12, the node 10A is a server managed by the store S2, the node 10D is a mobile terminal managed by the user U1, and the node 10E is a mobile terminal managed by the user U2.

The node 10D managed by the user U1, the node 10E managed by the user U2, and the node 10A managed by the store S2 possess predetermined assets.

The node 10A managed by the store S2 creates an open transaction with the node 10D managed by the user U1 by the same procedure as in the first embodiment. The node 10A managed by the store S2 transmits an open transaction with the node 10D managed by the user U1 to the block chain network L1. Then, the blockchain network L1 performs a consensus forming process with a certain strength.

The node 10A managed by the store S2 creates an open transaction with the node 10E managed by the user U2 by the same procedure as in the first embodiment. The node 10A managed by the store S2 transmits an open transaction with the node 10E managed by the user U2 to the block chain network L1. Then, the blockchain network L1 performs a consensus forming process with a certain strength.

The node 10E managed by the user U2 requests the node 10D managed by the user U1 to send the asset. Here, as shown in FIG. 12, no direct channel is provided between the node 10D and the node 10E. Therefore, the asset transaction between the node 10D and the node 10E is executed via the node 10A managed by the store S2.

The node 10D managed by the user U1 changes the quantity of each asset of the open transaction with the node 10A managed by the store S2 by the quantity requested by the user U2 (reduces the quantity of assets held by the user U1, Increase the amount of assets held by store S2 by the same amount). Then, the node 10D managed by the user U1 generates a commitment transaction that reflects the changed amount of assets, and transmits the commitment transaction to the node 10A managed by the store S2 via the lightning network L2. As a result, the amount of assets held is shared between the node 10D managed by the user U1 and the node 10A managed by the store S2.

The node 10A managed by the store S2 changes the quantity of each asset of the open transaction with the node 10E managed by the user U2 by the quantity requested by the user U2 (reduces the quantity of assets held by the shop S2. , Increase the amount of assets held by the user U2 by the same amount). Then, the node 10A managed by the store S2 creates a commitment transaction that reflects the changed amount of assets, and transmits the commitment transaction to the node 10E managed by the user U2 via the lightning network L2. As a result, the amount of owned assets is shared between the node 10E managed by the user U2 and the node 10A managed by the store S2.

Any one of the node 10D managed by the user U1, the node 10E managed by the user U2, and the node 10A managed by the store S2 records the final asset holding amount using the technology of the present embodiment. Generate a shutdown message representing the contract and send it to other nodes using the Lightning network. Then, the node receiving the shutdown message generates its own shutdown message and transmits it to another node using the lightning network.

The node that has transmitted the asset lock signal when the channel is opened uses the technique of this embodiment to create a signed closed transaction, and transmits it to the other node using the lightning network. Then, both signed closed transactions are transmitted to the block chain network L1, and the block chain network L1 performs a consensus forming process with a certain strength. When the consensus building process by the block chain network L1 is completed, the asset transaction between nodes is completed.

As a result, even if a direct channel is not provided between the nodes that trade assets, the assets can be traded at high speed through other nodes.

The present invention is not limited to the above-described embodiments, and various modifications and applications are possible without departing from the scope of the present invention.

Further, in the specification of the present application, the embodiment in which the program is pre-installed has been described, but the program can be stored in a computer-readable recording medium and provided.

1 Information Processing System 10, 10A, 10B, 10C, 10D, 10E, 10F, 10X Node 11 Network 12 Processing Unit 14 Communication Unit 16 Block Chain Node 70 Computer 73 Storage Unit L1 Block Chain Network L2 Lightning Network

Claims (8)

The first node, which is an information processing device that trades assets different from Bitcoin,
In a network different from a blockchain network where agreements are made regarding the trading of assets including bitcoins, the bitcoins differ from the second node which is an information processing device that trades assets different from the bitcoins. An information processing method, comprising the step of transmitting and receiving identification information for identifying an asset and amount information indicating an amount of an asset different from the bitcoin. The first node further includes transmitting a signal including the identification information of an asset different from the bitcoin and the amount information of the asset different from the bitcoin to the blockchain network,
The step of transmitting and receiving the identification information of the asset different from the bitcoin and the amount information of the asset different from the bitcoin, when an agreed signal regarding the transaction from the blockchain network is output, The bit held by the first node by transmitting and receiving the identification information of an asset different from the bitcoin and the amount information of an asset different from the bitcoin in a network different from the blockchain network. Updating the amount of assets different from coins and the amount of assets held by the second node different from the bitcoins,
The information processing method according to claim 1. In the step of transmitting and receiving the identification information of the asset different from the bitcoin and the amount information of the asset different from the bitcoin, a direct channel is provided between the first node and the second node. If not, the identification information of the asset different from the bitcoin and the amount information of the asset different from the bitcoin are passed through a node which is an information processing device different from the first node and the second node. Send and receive,
The information processing method according to claim 1 or 2. The network different from the blockchain network is a lightning network,
The information processing method according to any one of claims 1 to 3. When the first node opens a channel for trading an asset different from the bitcoin with the second node, an asset different from the bitcoin is transferred to a blockchain in the blockchain network. Open transaction information including the identification information and the amount information of an asset different from the bitcoin is written,
When the first node closes a channel for trading an asset different from the bitcoin with the second node, a blockchain in the blockchain network is provided with an asset different from the bitcoin. Close transaction information including the identification information and the amount information of an asset different from the bitcoin is written,
The information processing method according to any one of claims 1 to 4. A second information processing device that trades an asset different from the bitcoin in a network different from the blockchain network in which an agreement regarding the transaction of the asset including the bitcoin is performed when trading the asset different from the bitcoin. An information processing apparatus, comprising: a communication unit that transmits and receives identification information for identifying an asset different from the bitcoin and amount information indicating an amount of the asset different from the bitcoin to and from a node. Computer,
A second information processing device that trades an asset different from the bitcoin in a network different from the block chain network in which an agreement regarding the transaction of the asset including the bitcoin is made when trading the asset different from the bitcoin. A program for causing a node to function as a communication unit for transmitting and receiving identification information for identifying an asset different from the bitcoin and amount information indicating an amount of the asset different from the bitcoin. An information processing system including: a first node, which is an information processing device that transmits and receives an asset different from bitcoin, and a second node, which is an information processing device that transmits and receives an asset different from bitcoin,
The first node and the second node are identification information for identifying an asset different from the bitcoin and the bitcoin in a network different from a blockchain network in which an agreement regarding trading of assets including bitcoin is performed. It is characterized in that it transmits and receives the amount information indicating the amount of assets different from
Information processing system.