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A machine learning approach for real‐time selection of preventive actions improving power network resilience

Matthias Noebels, Robin Preece, Mathaios Panteli

2021IET Generation Transmission & Distribution25 citationsDOIOpen Access PDF

Abstract

Abstract Power outages due to cascading failures which are triggered by extreme weather pose an increasing risk to modern societies and draw attention to an emerging need for power network resilience. Machine learning (ML) is used for a real‐time selection process on preventive actions, such as topology reconfiguration and islanding, aiming to reduce the risk of cascading failures. Training data is obtained from Monte Carlo simulations of cascading failures triggered by extreme events. The trained ML‐based decision‐making process uses only predictors that are readily available prior to an extreme event, such as event location and intensity, network topology and load, and requires no further time‐consuming simulations.The proposed decision‐making process is compared to time‐consuming but ideal decision‐making and fast but trivial decision‐making. Demonstrations on the German transmission network show that the proposed ML‐based selection process efficiently prevents the uncontrolled propagation of cascading failures and performs similarly to an ideal decision‐making process whilst being computationally three orders of magnitude faster.

Topics & Concepts

Selection (genetic algorithm)Resilience (materials science)Computer sciencePower (physics)Power networkElectric power systemMachine learningPreventive maintenanceArtificial intelligenceReliability engineeringEngineeringPhysicsThermodynamicsQuantum mechanicsPower System Reliability and MaintenanceSmart Grid Security and ResiliencePower System Optimization and Stability
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