Motivated by the increasing concerns over environmental challenges such as global
warming and exhaustion of fossil-fuel reserves, the renewable energy industry has become …

Modeling, control, and simulation of a wind energy conversion system equipped with a
doubly fed induction generator are presented in this study. A fractional-order proportional …

Abstract The grid-connected Doubly Fed Induction Generator (DFIG) system is exposed to
severe grid faults. The DFIG is sensitive to grid disturbances, which lead to consideration in …

This paper proposes a super-twisting adaptive sliding mode control law for maximum power
point tracking of wind energy conversion systems based on permanent magnet synchronous …

The technological development in wind energy conversion systems (WECSs) places
emphasis on the injection of wind power into the grid in a smoother and robust way. Sliding …

This paper describes the design and implementation in real time of a nonlinear control for a
wind energy conversion system (WECS). The Backstep** control has been implemented …

The doubly fed induction generator (DFIG)-based wind energy conversion systems (WECSs)
are prone to certain uncertainties, nonlinearities, and external disturbances. The maximum …

In order to overcome the disadvantages of the conventional sliding mode reaching law, such
as the large chattering and the slow convergence rate, an improved quick reaching law is …

A high-performance control system is essential to transfer maximum power from wind power
generation system (WPGS) to the utility grid. In this paper, a fuzzy fractional-order terminal …

This paper proposes an artificial intelligence integrated (AI) fractional order robust control for
a DFIG based wind energy conversion system. To reduce the chattering phenomena in the …