IEEE Transactions on Smart Grid, volume 11, issue 2, pages 1407-1418

Grid Influenced Peer-to-Peer Energy Trading

Wayes Tushar ¹

Tapan K. Saha ¹

Chau Yuen ²

Thomas Morstyn ³

Nahid‐Al Masood ⁴

H. Poor ⁵

Richard Bean ⁶

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School of Information Technology and Electrical Engineering, University of Queensland, Brisbane, Australia |

Engineering Product Development Pillar, Singapore University of Technology and Design, Singapore |

Oxford Martin School, University of Oxford, Oxford, U.K. |

⁴

Department of EEE, Bangladesh University of Engineering and Technology, Dhaka, Bangladesh |

⁵

Department of Electrical Engineering, Princeton University, princeton, USA |

⁶

Redback Technologies Research Centre, University of Queensland, Indooroopilly, Australia |

Publication type: Journal Article

Publication date: 2020-03-01

Institute of Electrical and Electronics Engineers (IEEE)

Journal: IEEE Transactions on Smart Grid

scimago Q1

wos Q1

SJR: 4.863

CiteScore: 22.1

Impact factor: 8.6

ISSN: 19493053, 19493061

DOI: 10.1109/tsg.2019.2937981

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General Computer Science

Abstract

This paper proposes a peer-to-peer (P2P) energy trading scheme that can help a centralized power system to reduce the total electricity demand of its customers at the peak hour. To do so, a cooperative Stackelberg game is formulated, in which the centralized power system acts as the leader that needs to decide on a price at the peak demand period to incentivize prosumers to not seek any energy from it. The prosumers, on the other hand, act as followers and respond to the leader's decision by forming suitable coalitions with neighboring prosumers in order to participate in P2P energy trading to meet their energy demand. The properties of the proposed Stackelberg game are studied. It is shown that the game has a unique and stable Stackelberg equilibrium, as a result of the stability of prosumers' coalitions. At the equilibrium, the leader chooses its strategy using a derived closed-form expression, while the prosumers choose their equilibrium coalition structure. An algorithm is proposed that enables the centralized power system and the prosumers to reach the equilibrium solution. Numerical case studies demonstrate the beneficial properties of the proposed scheme.

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