ADAPTIVE FEEDBACK LINEARIZATION CONTROL FOR ASYNCHRONOUS MACHINE WITH NONLINEAR FOR NATURAL DYNAMIC COMPLETE OBSERVER
Abderrahim Bentaallah – Ahmed Massoum – Farid Benhamida – Abdelkader Meroufel
This paper studies the nonlinear adaptive control of an induction motor with natural dynamic complete nonlinear observer. The aim of this work is to develop a nonlinear control law and adaptive performance for an asynchronous motor with two main objectives: to improve the continuation of trajectories and the stability, robustness to parametric variations and disturbances rejection. This control law will independently control the speed and flux into the machine by restricting supply. A complete nonlinear observer for dynamic nature ensuring closed loop stability of the entire control and observer has been developed. Several simulations have
also been carried out to demonstrate system performance.
Keywords: feedback linearization, adaptive control, parameter estimation, nonlinear observer (NLO), induction motor (IM)
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