An Improved Particle Swarm Optimization (IPSO) Approach for Identification and Control of Stable and Unstable Systems

Q1 Mathematics International Review of Automatic Control Pub Date : 2017-05-31 DOI:10.15866/IREACO.V10I3.11857

N. E. Gmili, Mostafa Mjahed, A. E. Kari, H. Ayad

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引用次数: 9

Abstract

In this paper, an Improved Particle Swarm Optimization (IPSO) technique is generalized to identify and control four systems of different types of behaviors. This was possible thanks to the use of a new initialization strategy of partitioning of particles, which helps PSO to converge faster to the correct region in the research space. The choice of an enhanced fitness function consisting of the weighted sum of the objectives gives better performances compared to those found using four other commonly used performance indices (ISE, IAE, ITAE, and ITSE). The validity of the model chosen for identifying these four types of behaviors is proved, and the control of these systems using IPSO and many conventional optimization methods such as Ziegler-Nichols, Graham-Lathrop, and Reference Model has been compared and confirmed that IPSO generates a high-quality solution with a short calculation time and a stable convergence feature. Moreover, results confirmed that the IPSO optimized PID is the best as it has good performance and good robustness and it is insensitive to perturbations.

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一种用于稳定和不稳定系统辨识和控制的改进粒子群优化（IPSO）方法

本文将改进的粒子群优化（IPSO）技术推广到识别和控制四个不同类型行为的系统。这是可能的，这要归功于使用了一种新的粒子划分初始化策略，这有助于PSO更快地收敛到研究空间中的正确区域。与使用其他四个常用性能指标（ISE、IAE、ITAE和ITSE）发现的性能相比，选择由目标的加权和组成的增强适应度函数可以获得更好的性能。证明了用于识别这四类行为的模型的有效性，并将IPSO与许多传统优化方法（如Ziegler-Nichols、Graham Lathrop和参考模型）对这些系统的控制进行了比较，证实IPSO生成了一个计算时间短、收敛性稳定的高质量解。此外，结果证实了IPSO优化PID是最好的，因为它具有良好的性能和良好的鲁棒性，并且对扰动不敏感。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Review of Automatic Control Engineering-Control and Systems Engineering

CiteScore

2.70

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