Abstract
Owing to the superior transient and steady-state performance of the fractional-order proportional-integral-derivative (FOPID) controller over its conventional counterpart, this paper exploited its application in an automatic voltage regulator (AVR) system. Since the FOPID controller contains two more control parameters (µ and λ ) as compared to the conventional PID controller, its tuning process was comparatively more complex. Thus, the intelligence of one of the most recently developed metaheuristic algorithms, called the salp swarm optimization algorithm (SSA), was utilized to select the optimized parameters of the FOPID controller in order to achieve the optimal dynamic response and enhanced stability of the studied AVR system. To validate the effectiveness of the proposed method, its performance was compared with that of the recently used tuning methods for the same system configuration and operating conditions. Furthermore, a stability analysis was carried out using pole-zero and bode stability criteria. Finally, in order to check the robustness of the developed system against the system parameter variations, a robustness analysis of the developed system was undertaken. The results show that the proposed SSA-based FOPID tuning method for the AVR system outperformed its conventional counterparts in terms of dynamic response and stability measures.
Highlights
Maintaining consistent and stable voltage levels in a power system requires proper control management of power networks
A classical to fluctuations on the power generation side is the usage of an automatic voltage regulator (AVR)
That voltage fluctuations on the power generation side is the usage of an automatic voltage regulator controls thecontrols voltagethe levels by maintaining the voltagethe of voltage an alternator at a specified (AVR)
Summary
Maintaining consistent and stable voltage levels in a power system requires proper control management of power networks. Surges in the terminal voltage fluctuate reactive power by a large margin and may cause the power system to reach an unstable level of operation. This may lead to increased losses in power lines and unbalanced voltage. A classical to fluctuations on the power generation side is the usage of an automatic voltage regulator (AVR). The performance of power systems is highly subjected to the stability of AVR. A general structure of the performance of power systems is highly subjected to the stability of AVR.
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