A Multi-Agent Reinforcement Learning-Based Data-Driven Method for Home Energy Management

Xu Xu; Youwei Jia; Yan Xu; Zhao Xu; Songjian Chai; Chun Sing Lai

doi:10.1109/TSG.2020.2971427

A Multi-Agent Reinforcement Learning-Based Data-Driven Method for Home Energy Management

Xu Xu, Youwei Jia, Yan Xu, Zhao Xu, Songjian Chai, Chun Sing Lai

The Hong Kong Polytechnic University

Research output: Journal article publication › Journal article › Academic research › peer-review

294 Citations (Scopus)

Abstract

This paper proposes a novel framework for home energy management (HEM) based on reinforcement learning in achieving efficient home-based demand response (DR). The concerned hour-ahead energy consumption scheduling problem is duly formulated as a finite Markov decision process (FMDP) with discrete time steps. To tackle this problem, a data-driven method based on neural network (NN) and Q-learning algorithm is developed, which achieves superior performance on cost-effective schedules for HEM system. Specifically, real data of electricity price and solar photovoltaic (PV) generation are timely processed for uncertainty prediction by extreme learning machine (ELM) in the rolling time windows. The scheduling decisions of the household appliances and electric vehicles (EVs) can be subsequently obtained through the newly developed framework, of which the objective is dual, i.e., to minimize the electricity bill as well as the DR induced dissatisfaction. Simulations are performed on a residential house level with multiple home appliances, an EV and several PV panels. The test results demonstrate the effectiveness of the proposed data-driven based HEM framework.

Original language	English
Article number	8981876
Pages (from-to)	3201-3211
Number of pages	11
Journal	IEEE Transactions on Smart Grid
Volume	11
Issue number	4
DOIs	https://doi.org/10.1109/TSG.2020.2971427
Publication status	Published - Jul 2020

Keywords

data-driven method
demand response
finite Markov decision process
home energy management
neural network
Q-learning algorithm
Reinforcement learning

ASJC Scopus subject areas

General Computer Science

More information

10.1109/TSG.2020.2971427

Cite this

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title = "A Multi-Agent Reinforcement Learning-Based Data-Driven Method for Home Energy Management",

abstract = "This paper proposes a novel framework for home energy management (HEM) based on reinforcement learning in achieving efficient home-based demand response (DR). The concerned hour-ahead energy consumption scheduling problem is duly formulated as a finite Markov decision process (FMDP) with discrete time steps. To tackle this problem, a data-driven method based on neural network (NN) and Q-learning algorithm is developed, which achieves superior performance on cost-effective schedules for HEM system. Specifically, real data of electricity price and solar photovoltaic (PV) generation are timely processed for uncertainty prediction by extreme learning machine (ELM) in the rolling time windows. The scheduling decisions of the household appliances and electric vehicles (EVs) can be subsequently obtained through the newly developed framework, of which the objective is dual, i.e., to minimize the electricity bill as well as the DR induced dissatisfaction. Simulations are performed on a residential house level with multiple home appliances, an EV and several PV panels. The test results demonstrate the effectiveness of the proposed data-driven based HEM framework.",

keywords = "data-driven method, demand response, finite Markov decision process, home energy management, neural network, Q-learning algorithm, Reinforcement learning",

author = "Xu Xu and Youwei Jia and Yan Xu and Zhao Xu and Songjian Chai and Lai, {Chun Sing}",

note = "Funding Information: This work was supported in part by the SUSTech Faculty Startup Funding under Grant Y01236135 and Grant Y01236235, and in part by the Young Talent Program (Department of Education of Guangdong) under Grant 2018KQNCX223. The work of Yan Xu was supported by Nanyang Assistant Professorship from Nanyang Technological University, Singapore. Paper no. TSG-01215-2019. (Corresponding author: Youwei Jia.) Funding Information: Manuscript received August 19, 2019; revised November 10, 2019; accepted January 27, 2020. Date of publication February 4, 2020; date of current version June 19, 2020. This work was supported in part by the SUSTech Faculty Startup Funding under Grant Y01236135 and Grant Y01236235, and in part by the Young Talent Program (Department of Education of Guangdong) under Grant 2018KQNCX223. The work of Yan Xu was supported by Nanyang Assistant Professorship from Nanyang Technological University, Singapore. Paper no. TSG-01215-2019. (Corresponding author: Youwei Jia.) Xu Xu is with the Department of Electrical and Electronic Engineering, Southern University of Science and Technology, Shenzhen 518055, China, and also with the School of Electrical and Electronic Engineering, Nanyang Technological University, Singapore 639798 (e-mail: [email protected]). Publisher Copyright: {\textcopyright} 2010-2012 IEEE.",

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N1 - Funding Information: This work was supported in part by the SUSTech Faculty Startup Funding under Grant Y01236135 and Grant Y01236235, and in part by the Young Talent Program (Department of Education of Guangdong) under Grant 2018KQNCX223. The work of Yan Xu was supported by Nanyang Assistant Professorship from Nanyang Technological University, Singapore. Paper no. TSG-01215-2019. (Corresponding author: Youwei Jia.) Funding Information: Manuscript received August 19, 2019; revised November 10, 2019; accepted January 27, 2020. Date of publication February 4, 2020; date of current version June 19, 2020. This work was supported in part by the SUSTech Faculty Startup Funding under Grant Y01236135 and Grant Y01236235, and in part by the Young Talent Program (Department of Education of Guangdong) under Grant 2018KQNCX223. The work of Yan Xu was supported by Nanyang Assistant Professorship from Nanyang Technological University, Singapore. Paper no. TSG-01215-2019. (Corresponding author: Youwei Jia.) Xu Xu is with the Department of Electrical and Electronic Engineering, Southern University of Science and Technology, Shenzhen 518055, China, and also with the School of Electrical and Electronic Engineering, Nanyang Technological University, Singapore 639798 (e-mail: [email protected]). Publisher Copyright: © 2010-2012 IEEE.

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N2 - This paper proposes a novel framework for home energy management (HEM) based on reinforcement learning in achieving efficient home-based demand response (DR). The concerned hour-ahead energy consumption scheduling problem is duly formulated as a finite Markov decision process (FMDP) with discrete time steps. To tackle this problem, a data-driven method based on neural network (NN) and Q-learning algorithm is developed, which achieves superior performance on cost-effective schedules for HEM system. Specifically, real data of electricity price and solar photovoltaic (PV) generation are timely processed for uncertainty prediction by extreme learning machine (ELM) in the rolling time windows. The scheduling decisions of the household appliances and electric vehicles (EVs) can be subsequently obtained through the newly developed framework, of which the objective is dual, i.e., to minimize the electricity bill as well as the DR induced dissatisfaction. Simulations are performed on a residential house level with multiple home appliances, an EV and several PV panels. The test results demonstrate the effectiveness of the proposed data-driven based HEM framework.

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A Multi-Agent Reinforcement Learning-Based Data-Driven Method for Home Energy Management

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