Stochastic Hybrid Estimator Based Fault Detection and Isolation for Wind Energy Conversion Systems with Unknown Fault Inputs

Abstract: Abstract:In recent years, the wind energy conversion system (WECS) has been becoming the vital system to acquire wind energy. However, the high failure rate of WECSs leads to expensive costs for the maintenance of WECSs. Therefore, how to detect and isolate the faults of WECSs with stochastic dynamics is the pressing issue in the literature. This paper proposes a novel comprehensive fault detection and isolation (FDI) method for WECSs. First, a stochastic model predictive control (SMPC) controller is studied t… Show more

“…These discontinuities can be attributed to variations in solar power levels (which differ from one mode to another). As a result, the obtained model corresponds to (30) when r(t) = i, and to…”

“…In [30], a stochastic model predictive control was applied to design optimal control for wind turbines that are subject to random wind speed. The authors formulated a Markov jump linearization model to describe random switching characteristics of the wind turbine.…”

Jump Linear Quadratic Control for Microgrids with Commercial Loads

“…These discontinuities can be attributed to variations in solar power levels (which differ from one mode to another). As a result, the obtained model corresponds to (30) when r(t) = i, and to…”

“…In [30], a stochastic model predictive control was applied to design optimal control for wind turbines that are subject to random wind speed. The authors formulated a Markov jump linearization model to describe random switching characteristics of the wind turbine.…”

Jump Linear Quadratic Control for Microgrids with Commercial Loads