Enhancing Distribution System Resilience: A First-Order Meta-RL Algorithm for Critical Load Restoration

Zain ul Abdeen, Xiangyu Zhang, Waris Gill, Ming Jin

Research output: Contribution to conferencePaper

Abstract

The increasing frequency of extreme events and the integration of distributed energy resources (DERs) into modern grids have elevated the need for resilient and efficient critical load restoration strategies in distribution systems. However, the stochastic nature of renewable DERs, limited energy resource availability and the intricate nonlinearities inherent in complex grid control problem make the problem challenging. Although reinforcement learning (RL) and warm-start RL methods have shown promising results, their performance often falls short in rapidly adapting to new, unseen situations and typically requires exhaustive problem-specific tuning. To address these gaps, we propose a First-Order Meta-based RL (FOM-RL) algorithm within an online framework for adaptive and robust critical load restoration. By harnessing local DERs as the enabling technology, FOM-RL allows the RL agent to swiftly adapt to new unseen scenarios by leveraging previously acquired knowledge of different tasks. Experimental results provide evidence that proposed algorithm learns more efficiently and showcases generalization capabilities across diverse set of operational scenarios. Moreover, a rigorous theoretical analysis yields a tight sublinear regret bound, sensitive to temporal variability, with a task-averaged optimality gap bounded by O(VM+D*/(Tsquare root(M))). These results suggest that optimality improves with task similarity and an increased number of tasks M, reaffirming the efficacy and scalability of the proposed approach in addressing the complexities of critical load restoration in distribution systems.
Original languageAmerican English
Pages129-134
Number of pages6
DOIs
StatePublished - 2024
Event2024 IEEE International Conference on Communications, Control, and Computing Technologies for Smart Grids (SmartGridComm) - Oslo, Norway
Duration: 17 Sep 202420 Sep 2024

Conference

Conference2024 IEEE International Conference on Communications, Control, and Computing Technologies for Smart Grids (SmartGridComm)
CityOslo, Norway
Period17/09/2420/09/24

NREL Publication Number

  • NREL/CP-2C00-92622

Keywords

  • complexity theory
  • computers
  • distributed power generation
  • energy resources
  • fault tolerance
  • reinforcement learning
  • renewable energy sources
  • scalability
  • smart grids
  • tuning

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