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A Machine Learning-Based Vulnerability Analysis for Cascading Failures of Integrated Power-Gas Systems

Shuai Li, Tao Ding, Wenhao Jia, Can Huang, João P. S. Catalào, Fangxing Li

2021IEEE Transactions on Power Systems62 citationsDOIOpen Access PDF

Abstract

This paper proposes a cascading failure simulation (CFS) method and a hybrid machine learning method for vulnerability analysis of integrated power-gas systems (IPGSs). The CFS method is designed to study the propagating process of cascading failures between the two systems, generating data for machine learning with initial states randomly sampled. The proposed method considers generator and gas well ramping, transmission line and gas pipeline tripping, island issue handling and load shedding strategies. Then, a hybrid machine learning model with a combined random forest (RF) classification and regression algorithms is proposed to investigate the impact of random initial states on the vulnerability metrics of IPGSs. Extensive case studies are carried out on three test IPGSs to verify the proposed models and algorithms. Simulation results show that the proposed models and algorithms can achieve high accuracy for the vulnerability analysis of IPGSs.

Topics & Concepts

Cascading failureElectric power systemTrippingComputer scienceVulnerability (computing)Vulnerability assessmentReliability engineeringTransmission lineElectric power transmissionRandom forestMachine learningPipeline (software)Generator (circuit theory)Process (computing)EngineeringPower (physics)Artificial intelligenceCircuit breakerComputer securityTelecommunicationsPsychological resiliencePhysicsQuantum mechanicsProgramming languageElectrical engineeringPsychotherapistPsychologyOperating systemIntegrated Energy Systems OptimizationPower System Reliability and MaintenanceOptimal Power Flow Distribution