In the field of generation systems, system performance, and power quality are greatly
affected by traditional control techniques based on proportional-integral (PI) controllers …

This work presents a new scheme of direct power command (DPC) of induction generator
(IG)-based dual-rotor wind power (DRWP) systems. The suggested DPC employs a …

This paper introduces a sensorless control strategy combining Finite-Set Predictive Current
Control (FSPCC) and Model Reference Adaptive System (MRAS) estimation to enhance the …

This paper introduces a novel wind energy conversion system (WECS) incorporating a 1.5
MW dual-excited synchronous generator (DESG) connected to the grid. DESGs, recently …

This paper presents the design and control of a wind energy converter system that uses a
doubly fed induction generator. It introduces a model that incorporates instantaneous active …

In wind energy generation systems, ensuring high energy quality is critical but is often
compromised due to the limited performance and durability of conventional regulators. To …

Wind power is a sustainable and reliable solution to the growing global demand for
electricity, driven by the shift toward renewable energy sources. Hybrid Excitation …

This research introduces a resilient Sensor-Less 1st Sliding Mode (SL-FOSM) approach
employing a novel observer, the Artificial Neural Network with Model Reference Adaptive …

This study presents a robust Sensor-Less First Order Integral Sliding Mode (SL/FOISM)
strategy, incorporating an innovative observer known as Artificial Neural Network with Model …

In this paper, an adaptive sliding mode observer (ASMO) associated with a phase locked
loop (PLL) is assessed for the sensor‐less control of a rotor‐tied doubly‐fed induction …