Sung-Yong Son scite author profile

Abstract:Transaction-based energy (TE) management and control has become an increasingly relevant topic, attracting considerable attention from industry and the research community alike. As a result, new techniques are emerging for its development and actualization. This paper presents a comprehensive review of TE involving peer-to-peer (P2P) energy trading and also covering the concept, enabling technologies, frameworks, active research efforts and the prospects of TE. The formulation of a common approach for TE management modelling is challenging given the diversity of circumstances of prosumers in terms of capacity, profiles and objectives. This has resulted in divergent opinions in the literature. The idea of this paper is therefore to explore these viewpoints and provide some perspectives on this burgeoning topic on P2P TE systems. This study identified that most of the techniques in the literature exclusively formulate energy trade problems as a game, an optimization problem or a variational inequality problem. It was also observed that none of the existing works has considered a unified messaging framework. This is a potential area for further investigation.

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Energy-storage system sizing and operation strategies based on discrete Fourier transform for reliable wind-power generation

Son

2018

Renewable Energy

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Peer-to-Peer Energy Transaction Mechanisms Considering Fairness in Smart Energy Communities

Son

2020

IEEE Access

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This study presents peer-to-peer (P2P) energy transaction mechanisms to maximize social welfare considering the uncertainty and profit fairness of the players. The P2P energy transaction problem is formulated as a P2P energy transaction pair matching and the determination of the P2P transaction price. To solve the problem, the optimal condition to maximize social welfare is determined using stochastic P2P energy transaction performance analysis based on the uncertainty characteristics. The analysis results show that social welfare is maximized to match the producer and consumer pairs that have similar demand characteristics; the P2P transaction price balances the profit fairness between the pair. Using these results, two centralized P2P energy transaction mechanisms are proposed by modifying the optimization problem. Moreover, a decentralized P2P energy transaction mechanism that operates in a distributed manner is suggested with the operational signal flow for the implementation of the mechanism. The simulation results show that the centralized and decentralized mechanisms have near optimal performance, with less than a 0.5% and 1% optimal gap compared to the optimal solution that requires perfect information including uncertainty, respectively. However, the decentralized mechanism is less computationally complex and uses less information than the centralized mechanisms; consequently, it can alleviate the operational burden and security and privacy problems. In addition, the results show that the performance of P2P energy transaction is related to the relative demand ratio between the producer and consumer. The optimal condition and results suggest a guide to the design of the P2P energy transaction. INDEX TERMS Demand-side management, distributed energy transaction, distributed generation, energy community, energy trading, fairness, peer-to-peer, prosumer, uncertainty.

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Scheduling and performance analysis under a stochastic model for electric vehicle charging stations

Kim

Son

Lee

et al. 2017

Omega

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Interaction-based virtual power plant operation methodology for distribution system operator’s voltage management

Park

Son

2020

Applied Energy

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Sung-Yong Son

State-Of-The-Art and Prospects for Peer-To-Peer Transaction-Based Energy System

Energy-storage system sizing and operation strategies based on discrete Fourier transform for reliable wind-power generation

Peer-to-Peer Energy Transaction Mechanisms Considering Fairness in Smart Energy Communities

Scheduling and performance analysis under a stochastic model for electric vehicle charging stations

Interaction-based virtual power plant operation methodology for distribution system operator’s voltage management

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