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Real-Time Residential Demand Response

Hepeng Li, Zhiqiang Wan, Haibo He

2020IEEE Transactions on Smart Grid203 citationsDOIOpen Access PDF

Abstract

This paper presents a real-time demand response (DR) strategy for optimal scheduling of home appliances. The uncertainty of the resident's behavior, real-time electricity price, and outdoor temperature is considered. An efficient DR scheduling algorithm based on deep reinforcement learning (DRL) is proposed. Unlike traditional model-based approaches, the proposed approach is model-free and does not need to know the distribution of the uncertainty. Besides, unlike conventional RL-based methods, the proposed approach can handle both discrete and continuous actions to jointly optimize the schedules of different types of appliances. In the proposed approach, an approximate optimal policy based on neural network is designed to learn the optimal DR scheduling strategy. The neural network based policy can directly learn from high-dimensional sensory data of the appliance states, real-time electricity price, and outdoor temperature. A policy search algorithm based upon trust region policy optimization (TRPO) is used to train the neural network. The effectiveness of our proposed approach is validated by simulation studies where the real-world electricity price and outdoor temperature are used.

Topics & Concepts

Demand responseReinforcement learningScheduling (production processes)Computer scienceArtificial neural networkElectricityMathematical optimizationElectricity priceOperations researchArtificial intelligenceEngineeringMathematicsElectrical engineeringSmart Grid Energy ManagementBuilding Energy and Comfort OptimizationEnergy Efficiency and Management