Power Quality (PQ) Analyses of DG Utilizing Unified Power Quality Conditioner (UPQC) by White Shark Optimizer and Recalling-Enhanced Recurrent Neural Network

IF 0.9 4区工程技术 Q4 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE Journal of Circuits Systems and Computers Pub Date : 2024-03-21 DOI:10.1142/s021812662450227x

Chapala Shravani, R. L Narasimham2, G Tulasi Ram Das3

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Abstract

This paper proposes a novel hybrid technique for enhancing power quality (PQ) in distributed generation (DG) systems by deploying a unified power quality conditioner (UPQC). Here, the proposed hybrid method is the joint execution of white shark optimizer (WSO) and recalling-enhanced recurrent neural network (RERNN), called the WSO-RERNN technique. The primary objective of this novel approach is to effectively mitigate voltage sag and reduce voltage harmonics under varying load conditions. It is important to investigate the voltage sag, swell and harmonic distortion of the system to obtain an enhanced PQ of the energy supply. Therefore, this paper shows the brief impact of PQ in DG utilizing the proposed unified PQ conditioner controller. The WSO-RERNN control technique enhances the performance of the UPQC controller by providing the optimal control signal. By then, the efficiency of the proposed approach is done in MATLAB, and the performance is compared with those of existing optimization techniques, including Ant Lion Optimizer (ALO), Grey wolf optimization (GWO) and Salp swarm algorithm (SSA) methods.

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利用白鲨优化器和回忆增强型循环神经网络对使用统一电能质量调节器 (UPQC) 的 DG 进行电能质量 (PQ) 分析

本文提出了一种新型混合技术，通过部署统一电能质量调节器（UPQC）来提高分布式发电（DG）系统的电能质量（PQ）。本文提出的混合方法是联合执行白鲨优化器（WSO）和回忆增强型递归神经网络（RERNN），称为 WSO-RERNN 技术。这种新方法的主要目标是在不同负载条件下有效缓解电压骤降并减少电压谐波。研究系统的电压下陷、电压膨胀和谐波畸变对提高能源供应的 PQ 非常重要。因此，本文利用提出的统一 PQ 调节器控制器简要说明了 PQ 对 DG 的影响。WSO-RERNN 控制技术通过提供最优控制信号来增强 UPQC 控制器的性能。然后，在 MATLAB 中对所提方法的效率进行了测试，并将其性能与现有优化技术（包括蚁狮优化器 (ALO)、灰狼优化 (GWO) 和 Salp 蜂群算法 (SSA) 方法）进行了比较。

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来源期刊

Journal of Circuits Systems and Computers 工程技术-工程：电子与电气

CiteScore

2.80

自引率

26.70%

发文量

350

审稿时长

5.4 months

期刊介绍： Journal of Circuits, Systems, and Computers covers a wide scope, ranging from mathematical foundations to practical engineering design in the general areas of circuits, systems, and computers with focus on their circuit aspects. Although primary emphasis will be on research papers, survey, expository and tutorial papers are also welcome. The journal consists of two sections: Papers - Contributions in this section may be of a research or tutorial nature. Research papers must be original and must not duplicate descriptions or derivations available elsewhere. The author should limit paper length whenever this can be done without impairing quality. Letters - This section provides a vehicle for speedy publication of new results and information of current interest in circuits, systems, and computers. Focus will be directed to practical design- and applications-oriented contributions, but publication in this section will not be restricted to this material. These letters are to concentrate on reporting the results obtained, their significance and the conclusions, while including only the minimum of supporting details required to understand the contribution. Publication of a manuscript in this manner does not preclude a later publication with a fully developed version.