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Deep reinforcement learning based dynamic pricing for demand response considering market and supply constraints

Alejandro Fraija, Nilson Henao, Kodjo Agbossou, Sousso Kélouwani, Michaël Fournier, Shaival H. Nagarsheth

2024Smart Energy23 citationsDOIOpen Access PDF

Abstract

This paper presents a Reinforcement Learning (RL) approach to a price-based Demand Response (DR) program. The proposed framework manages a dynamic pricing scheme considering constraints from the supply and market side. Under these constraints, a DR Aggregator (DRA) is designed that takes advantage of a price generator function to establish a desirable power capacity through a coordination loop. Subsequently, a multi-agent system is suggested to exploit the flexibility potential of the residential sector to modify consumption patterns utilizing the relevant price policy. Specifically, electrical space heaters as flexible loads are employed to cope with the created policy by reducing energy costs while maintaining customers' comfort preferences. In addition, the developed mechanism is capable of dealing with deviations from the optimal consumption plan determined by residential agents at the beginning of the day. The DRA applies an RL method to handle such occurrences while maximizing its profits by adjusting the parameters of the price generator function at each iteration. A comparative study is also carried out for the proposed price-based DR and the RL-based DRA. The results demonstrate the efficiency of the suggested DR program to offer a power capacity that can maximize the profit of the aggregator and meet the needs of residential agents while preserving the constraints of the system.

Topics & Concepts

Reinforcement learningDynamic pricingDemand responseSupply and demandMicroeconomicsReinforcementEconomicsComputer scienceIndustrial organizationArtificial intelligenceEngineeringStructural engineeringElectricityElectrical engineeringSmart Grid Energy ManagementElectric Vehicles and InfrastructureEnergy Efficiency and Management