English

Robust Control of Cascading Power Grid Failures using Stochastic Approximation

Optimization and Control 2015-07-21 v3

Abstract

Cascading failure of a power transmission system are initiated by an exogenous event that disable a set of elements (e.g., lines) followed by a sequence of interrelated failures (or more precisely, trips) of overloaded elements caused by the combination of physics of power flows in the changed system topology, and controls. Should this sequence accelerate it can lead to a large system failure with significant loss of load. In previous work we have analyzed deterministic algorithms that in an online fashion (i.e., responding to observed data) selectively shed load so as to minimize the amount of lost load at termination of the cascade. In this work we present a rigorous methodology for incorporating noise and model errors, based on the Sample Average Approximation methodology for stochastic optimization.

Keywords

Cite

@article{arxiv.1504.00856,
  title  = {Robust Control of Cascading Power Grid Failures using Stochastic Approximation},
  author = {Daniel Bienstock and Guy Grebla},
  journal= {arXiv preprint arXiv:1504.00856},
  year   = {2015}
}
R2 v1 2026-06-22T09:09:37.780Z