Abstract
This work study proposes the implementation of a fractional order model reference adaptive control (FOMRAC) design for a doubly fed induction generator (DFIG) control of active and reactive power in wind energy systems. In a first step, we introduce classical adaptive MRAC controller design to regulate the active and reactive power provided by DFIG. Then, a fractional order adaptive FO-MRAC controller is designed in order to improve the energy system performance. Through a comparative study between the classical MRAC and the proposed FOMRAC regulators, we aim to demonstrate the efficacy of the proposed fractional adaptive control comparatively to classical integer order control. Numerical simulations are given to validate this performance enhancement.
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