The world is interested in applying grid codes to increase the reliability of power systems
through a micro-grid (MG). In a common practice, the MG comprises a wind farm, and/or …

A synergetic sliding mode (SSM) approach is designed to address the drawbacks of the
direct field-oriented control (DFOC) of the induction generators (IGs) integrated into variable …

This paper proposes a novel Improved Maximum Power Point Tracking (IMPPT) algorithm to
extract the maximum available power from a direct-drive Permanent-Magnet Synchronous …

Proportional integral derivative (PID) regulators are the most practical control schemes for
industrial wind turbines. The key to PID design is the determination of the control parameter …

DC-DC buck converters are extensively used in many industrial and end-user applications
where significant attention highlights their power-conversion efficiency and robustness to …

This article presents a proportional-integral sliding mode control (PI-SMC) approach for a
two-mass variable speed wind turbine (VSWT) system. Most studies on wind turbines …

Reactive and active power vector control of induction generators (IG) are essential
requirements for generating high-quality electricity from wind power. These control …

In this work, the differential mobile robot is controlled utilizing fuzzy PID speed control, which
combines fuzzy control with conventional PID control in real time. The path may be …

The stabilization of fault-tolerant control problem for the doubly fed induction generator
(DFIG)-based wind turbine (WT) model has been investigated with stochastic actuator faults …

This paper presents an effective strategy for controlling an Interleaved DC/DC Boost
Converter (IBC) that is employed for reducing the current fluctuations in a 6 kW Proton …