Multi-Agent Architecture for Peer-to-Peer Electricity Trading based on Blockchain Technology

2019 XXVII International Conference on Information, Communication and Automation Technologies (ICAT) Pub Date : 2019-10-01 DOI:10.1109/icat47117.2019.8938926

Y. Martín, A. Gazafroudi, J. Corchado, M. Shafie‐khah, H. Laaksonen, A. Kamišalić

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引用次数: 19

Abstract

The security of smart grids is put at risk due to their automation and remote access features. Blockchain technology can be used as a distributed ledger where data is stored and all the data transactions between the different entities of a smart grid are signed to protect them from such attacks. This paper proposes a multi-agent system (MAS) that combines smart contracts and blockchain to enable Peer-to-Peer electricity trading in a MicroGrid (MG) scenario, without the need for human intervention. The use of blockchain technology helps reduce transaction costs and allows to make micro transactions in the proposed market. Blockchain also improves the security of the platform because all the involved actors can be certain about the authorship of the information produced in the system. Finally, the use of a MAS and the possibility of negotiating between the agents helps obtain an optimal state in the system in which the costs of energy are minimal and the local production of energy is profitable.

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基于区块链技术的点对点电力交易多代理体系结构

由于智能电网的自动化和远程访问特性，其安全性面临风险。区块链技术可以用作存储数据的分布式账本，智能电网不同实体之间的所有数据交易都经过签名，以保护它们免受此类攻击。本文提出了一种多代理系统(MAS)，它结合了智能合约和区块链，使微电网(MG)场景中的点对点电力交易成为可能，而无需人工干预。区块链技术的使用有助于降低交易成本，并允许在拟议市场中进行微交易。区块链还提高了平台的安全性，因为所有参与的参与者都可以确定系统中产生的信息的作者。最后，MAS的使用和agent之间协商的可能性有助于在系统中获得能源成本最小且局部能源生产有利可图的最优状态。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2019 XXVII International Conference on Information, Communication and Automation Technologies (ICAT)

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