A novel stochastic preventive-corrective cut-set and stability-constrained unit commitment and optimal power flow formulation increases power system resilience to multiple wildfire risk levels while preserving economic viability on a 240-bus Western Interconnection test case.
A graph theoretic ap- proach to power system vulnerability identification
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Wildfire Risk-Informed Preventive-Corrective Decision Making under Renewable Uncertainty
A novel stochastic preventive-corrective cut-set and stability-constrained unit commitment and optimal power flow formulation increases power system resilience to multiple wildfire risk levels while preserving economic viability on a 240-bus Western Interconnection test case.