Metaheuristic-based algorithms for optimizing fractional-order controllers—a recent, systematic, and comprehensive review
Metaheuristic optimization algorithms (MHA) play a significant role in obtaining the best
(optimal) values of the system's parameters to improve its performance. This role is …
(optimal) values of the system's parameters to improve its performance. This role is …
Swarm intelligence-based optimization techniques for dynamic response and power quality enhancement of AC microgrids: A comprehensive review
The increasing penetration of Microgrids (MGs) into existing power systems and “plug and
play” capability of Distributed Generators (DGs) causes large overshoots and settling times …
play” capability of Distributed Generators (DGs) causes large overshoots and settling times …
An effective control design approach based on novel enhanced aquila optimizer for automatic voltage regulator
This paper presents a new metaheuristic algorithm by enhancing one of the recently
proposed optimizers named Aquila optimizer (AO). The enhanced AO (enAO) algorithm is …
proposed optimizers named Aquila optimizer (AO). The enhanced AO (enAO) algorithm is …
Development of Lévy flight-based reptile search algorithm with local search ability for power systems engineering design problems
The need for better-performing algorithms to solve real-world power systems engineering
problems has always been a challenging topic. Due to their stochastic nature, metaheuristic …
problems has always been a challenging topic. Due to their stochastic nature, metaheuristic …
An intelligent tuning scheme with a master/slave approach for efficient control of the automatic voltage regulator
A new master/slave model driven, and an optimization algorithm-based proportional–
integral–derivative (PID) plus second-order derivative (PIDD2) controller is proposed in this …
integral–derivative (PID) plus second-order derivative (PIDD2) controller is proposed in this …
[HTML][HTML] Optimal design of Fractional order PID controller based Automatic voltage regulator system using gradient-based optimization algorithm
Considering the superior control characteristics and increased tuning flexibility of the
Fractional-Order Proportional Integral Derivative (FOPID) controller than the conventional …
Fractional-Order Proportional Integral Derivative (FOPID) controller than the conventional …
Fractional order PID controller design for an AVR system using Chaotic Yellow Saddle Goatfish Algorithm
This paper presents a novel method for optimal tunning of a Fractional Order Proportional-
Integral-Derivative (FOPID) controller for an Automatic Voltage Regulator (AVR) system. The …
Integral-Derivative (FOPID) controller for an Automatic Voltage Regulator (AVR) system. The …
Optimal PID plus second-order derivative controller design for AVR system using a modified Runge Kutta optimizer and Bode's ideal reference model
This paper presents the development of a new metaheuristic algorithm by modifying one of
the recently proposed optimizers named Runge Kutta optimizer (RUN). The modified RUN …
the recently proposed optimizers named Runge Kutta optimizer (RUN). The modified RUN …
[HTML][HTML] Jaya optimization algorithm for transient response and stability enhancement of a fractional-order PID based automatic voltage regulator system
Considering the higher flexibility in tuning process and finer control action of the fractional-
order proportional integral derivative (FOPID) controller over the conventional proportional …
order proportional integral derivative (FOPID) controller over the conventional proportional …
Improved Lévy flight distribution algorithm with FDB-based guiding mechanism for AVR system optimal design
This paper presents the improved version of the Lévy Flight Distribution (LFD) algorithm for
solving real-valued numerical optimization problems. In the proposed algorithm, the Fitness …
solving real-valued numerical optimization problems. In the proposed algorithm, the Fitness …