CONTROL METHOD, NON-TRANSITORY COMPUTER-READABLE RECORDING MEDIUM STORING CONTROL PROGRAM, AND INFORMATION PROCESSING DEVICE

Organization Name

Fujitsu Limited

Inventor(s)

Shingo Fujimoto of Yokohama (JP)

Ken Kamakura of Machida (JP)

CONTROL METHOD, NON-TRANSITORY COMPUTER-READABLE RECORDING MEDIUM STORING CONTROL PROGRAM, AND INFORMATION PROCESSING DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240015038 titled 'CONTROL METHOD, NON-TRANSITORY COMPUTER-READABLE RECORDING MEDIUM STORING CONTROL PROGRAM, AND INFORMATION PROCESSING DEVICE

Simplified Explanation

The control method described in this patent application involves the following steps:

1. Acquiring state data from a first blockchain network that manages a distributed ledger. 2. The state data corresponds to the current state of a series of transactions executed via multiple blockchain networks. 3. Parameters related to the transactions, the procedure of the transactions, and a condition for a state transition are defined in the first distributed ledger. 4. Transmitting an execution instruction for the transactions to the blockchain networks included in the multiple blockchain networks. 5. Determining the state transition destination of the current state of the series of transactions by linking with the first blockchain network, based on the condition defined in the acquired state data. 6. The determination is made when a result of processing the execution instruction in the blockchain networks is received.

Potential applications of this technology:

• Cross-chain transactions: This control method allows for the execution and management of transactions across multiple blockchain networks, enabling interoperability and seamless transfer of assets.
• Decentralized finance (DeFi): The method can be applied to DeFi applications, where different blockchain networks are involved in various financial transactions, such as lending, borrowing, and trading.
• Supply chain management: By linking and coordinating multiple blockchain networks, this method can enhance transparency and traceability in supply chain processes, ensuring the authenticity and integrity of product information.

Problems solved by this technology:

• Interoperability: The method addresses the challenge of interoperability between different blockchain networks by providing a control mechanism that can manage transactions across multiple networks.
• State transition management: The method allows for the efficient management of state transitions in a series of transactions, ensuring that the current state is accurately determined based on predefined conditions.
• Scalability: By distributing transactions across multiple blockchain networks, this method can potentially improve scalability by reducing the load on a single network.

Benefits of this technology:

• Enhanced efficiency: The control method streamlines the execution and management of transactions across multiple blockchain networks, reducing the need for manual coordination and improving overall efficiency.
• Improved security: By leveraging the decentralized nature of blockchain networks, this method enhances the security and integrity of transactions, reducing the risk of fraud or tampering.
• Increased flexibility: The method provides flexibility in choosing and utilizing different blockchain networks for specific transactions, allowing for customization and optimization based on specific requirements or preferences.

Original Abstract Submitted

a control method including: acquiring state data corresponding a current state from a first blockchain network managing a first distributed ledger, wherein parameters relating to a series of transactions executed via a plurality of blockchain networks, a procedure of the transactions corresponding to the current state of the series of transactions, and a condition relating to a state transition in the series of transactions are defined in the first distributed ledger; transmitting an execution instruction for the transactions corresponding to the current state to the blockchain networks included in the plurality of blockchain networks; and determining a state transition destination of the current state of the series of transactions by linking with the first blockchain network, based on the condition defined in the acquired state data, when a result of processing the transmitted execution instruction for the transactions in the blockchain networks of the plurality of blockchain networks is received.