Performance Investigation of EMFO-Based Perpetual Online Tuned Variable SR-Controller in Simulated Real Environment

IF 1.1 4区 计算机科学 Q3 COMPUTER SCIENCE, CYBERNETICS
Vishal Vishnoi, S. Tiwari, R. Singla
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Abstract

Abstract This study uses the enhanced moth flame optimization (EMFO) algorithm with an online tuning approach to optimize the parameters of a variable range split range PID (SRPID) controller. Before implementing the developed EMFO algorithm in the actual plant, it is necessary to investigate the performance of the same in the simulated real environment. Therefore, in the present work, an electrical analogous model of the practical environment is simulated for investigation by considering several effects, namely imperfect insulation, density, viscosity, and compressibility. Further, to check the effectiveness of the proposed algorithm, the controller performance using the EMFO algorithm is compared with the performance using the original MFO algorithm. The validation results show a substantial improvement in the case of EMFO-based controller with an online tuning method in comparison to MFO-based controller. EMFO algorithm exhibits superior performance as it combines the benefits of three modifications (change the spiral path, opposition learning-based initialization, and change in flames selection) in the original MFO algorithm. Furthermore, the system is also investigated for the effect of system dynamics and process disturbance. It is concluded that the developed EMFO algorithm gives superior performance in a simulated real environment paving the way for possible implementation in practical situations.
仿真真实环境下基于emfo的永续在线调谐变sr控制器性能研究
摘要采用基于在线整定的增强型飞蛾火焰优化(EMFO)算法对变量程分割PID (SRPID)控制器进行参数优化。在将所开发的EMFO算法应用于实际工厂之前,有必要对其在模拟真实环境中的性能进行研究。因此,在本工作中,通过考虑几种影响,即不完全绝缘、密度、粘度和可压缩性,模拟了实际环境的电气模拟模型进行研究。进一步,为了验证所提算法的有效性,将采用EMFO算法的控制器性能与采用原始MFO算法的控制器性能进行了比较。验证结果表明,采用在线整定方法的基于emfo的控制器与基于mfo的控制器相比有很大的改进。EMFO算法结合了原MFO算法的三种修改(改变螺旋路径、基于对立学习的初始化和改变火焰选择)的优点,表现出优越的性能。此外,还研究了系统动力学和过程扰动对系统的影响。结果表明,所提出的EMFO算法在模拟真实环境中具有较好的性能,为实际应用奠定了基础。
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来源期刊
Cybernetics and Systems
Cybernetics and Systems 工程技术-计算机:控制论
CiteScore
4.30
自引率
5.90%
发文量
99
审稿时长
>12 weeks
期刊介绍: Cybernetics and Systems aims to share the latest developments in cybernetics and systems to a global audience of academics working or interested in these areas. We bring together scientists from diverse disciplines and update them in important cybernetic and systems methods, while drawing attention to novel useful applications of these methods to problems from all areas of research, in the humanities, in the sciences and the technical disciplines. Showing a direct or likely benefit of the result(s) of the paper to humankind is welcome but not a prerequisite. We welcome original research that: -Improves methods of cybernetics, systems theory and systems research- Improves methods in complexity research- Shows novel useful applications of cybernetics and/or systems methods to problems in one or more areas in the humanities- Shows novel useful applications of cybernetics and/or systems methods to problems in one or more scientific disciplines- Shows novel useful applications of cybernetics and/or systems methods to technical problems- Shows novel applications in the arts
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