Research on Block-Chain-Based Intelligent Transaction and Collaborative Scheduling Strategies for Large Grid

In view of the problems of large-grid-level centralized transactions and dispatch centers with information asymmetry and high processing costs, a completely decentralized transaction architecture and a weak centralized scheduling strategy based on block-chain are proposed. Firstly, the concepts of t...

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Veröffentlicht in:	IEEE access 2020, Vol.8, p.151866-151877
Hauptverfasser:	Fu, Xiaolin, Wang, Hong, Wang, Zhijie
Format:	Artikel
Sprache:	eng
Schlagworte:	Architecture Block-chain Blockchain collaborative scheduling Cryptography Evolutionary algorithms Game theory intelligent trading large grid Power grids Power markets Reliability Risk management Scheduling Smart contracts Substations Task scheduling
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creator	Fu, Xiaolin Wang, Hong Wang, Zhijie
description	In view of the problems of large-grid-level centralized transactions and dispatch centers with information asymmetry and high processing costs, a completely decentralized transaction architecture and a weak centralized scheduling strategy based on block-chain are proposed. Firstly, the concepts of transaction decentralization and scheduling decentralization are defined, and the reliability of distributed transaction communication is studied. Built a blockchain transaction risk control model based on the communication credit consensus mechanism. Secondly, under the weakly centralized scheduling architecture based on the autonomous chain of substations, security checks are performed, and temporary central nodes are set up to perform scheduling tasks. Finally, an improved evolutionary game algorithm is used to solve the above model, and the optimal solution is obtained by dynamically updating the credibility.
doi_str_mv	10.1109/ACCESS.2020.3017694
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subjects	Architecture Block-chain Blockchain collaborative scheduling Cryptography Evolutionary algorithms Game theory intelligent trading large grid Power grids Power markets Reliability Risk management Scheduling Smart contracts Substations Task scheduling
title	Research on Block-Chain-Based Intelligent Transaction and Collaborative Scheduling Strategies for Large Grid
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