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Stability Constrained Reinforcement Learning for Decentralized Real-Time Voltage Control

Jie Feng, Yuanyuan Shi, Guannan Qu, Steven H. Low, Anima Anandkumar, Adam Wierman

2023IEEE Transactions on Control of Network Systems34 citationsDOI

Abstract

Deep reinforcement learning has been recognized as a promising tool to address the challenges in real-time control of power systems. However, its deployment in real-world power systems has been hindered by a lack of explicit stability and safety guarantees. In this paper, we propose a stability-constrained reinforcement learning (RL) method for real-time implementation of voltage control, that guarantees system stability both during policy learning and deployment of the learned policy. The key idea underlying our approach is an explicitly constructed Lyapunov function that leads to a sufficient structural condition for stabilizing policies, i.e., monotonically decreasing policies guarantee stability. We incorporate this structural constraint with RL, by parameterizing each local voltage controller using a monotone neural network, thus ensuring the stability constraint is satisfied by design. We demonstrate the effectiveness of our approach in both single-phase and three-phase IEEE test feeders, where the proposed method can reduce the transient control cost by more than 26.7% and shorten the voltage recovery time by 23.6% on average compared to the widely used linear policy, while always achieving voltage stability. In contrast, standard RL methods often fail to achieve voltage stability.

Topics & Concepts

Reinforcement learningComputer scienceControl theory (sociology)Controller (irrigation)Stability (learning theory)Electric power systemMathematical optimizationPower (physics)Control (management)Artificial intelligenceMachine learningMathematicsAgronomyPhysicsQuantum mechanicsBiologyOptimal Power Flow DistributionPower System Optimization and StabilityMicrogrid Control and Optimization
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