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Neural Lyapunov Control for Power System Transient Stability: A Deep Learning-Based Approach

Tianqiao Zhao, Jianhui Wang, Xiaonan Lu, Yuhua Du

2021IEEE Transactions on Power Systems64 citationsDOIOpen Access PDF

Abstract

Power system control and transient stability analysis play essential roles in secure system operation. Control of power systems typically involves highly nonlinear and complex dynamics. Most of the existing works address such problems with additional assumptions in system dynamics, leading to a requirement for a complete and general solution. This paper, therefore, proposes a novel control framework for various power system control and stability problems leveraging a learning-based approach. The proposed framework includes a two-module structure that iteratively and jointly learns the candidate Lyapunov function and control law via deep neural networks in a learning module. Meanwhile, it guides the learning procedure towards valid results satisfying Lyapunov conditions in a falsification module. The introduced termination criteria ensure provable system stability. This control framework is verified through several studies handling different types of power system control problems. The results show that the proposed framework is generalizable and can simplify the control design for complex power systems with the stability guarantee and enlarged region of attraction.

Topics & Concepts

Electric power systemControl theory (sociology)Stability (learning theory)Lyapunov functionComputer scienceTransient (computer programming)Artificial neural networkControl systemControl engineeringControl-Lyapunov functionSystem dynamicsLyapunov stabilityNonlinear systemControl (management)Power (physics)Lyapunov redesignArtificial intelligenceEngineeringMachine learningPhysicsOperating systemElectrical engineeringQuantum mechanicsPower System Optimization and StabilitySmart Grid Security and ResilienceHVDC Systems and Fault Protection
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