Multi-objective Optimization-Based Design of Robust Fractional-Order PIλDμ Controller for Coupled Tank Systems

机译：基于多目标优化的耦合罐系统的鲁棒分数阶Piλdμ控制器设计

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In this paper, optimal control of coupled tank systems has been proposed using H∞ fractional-order controllers. Controller tuning has been posed as multi-objective mixed sensitivity minimization problem for tuning the fractional-order PID (FOPID) controllers and multi-objective variants of bat algorithm (MOBA) and differential evolution (MODE) has been used for optimization. Use of fractional-order controllers provides better characterization of dynamics of the process and their tuning using multi-objective optimization helps in attaining the robust trade-offs between sensitivity and complementary sensitivity. Both the FOPID controllers tuned with MOBA and MODE present robust behavior to external disturbance and the compared results show that MOBA-tuned controller presents efficient tracking of the reference.

机译：本文采用了H∞分数控制器提出了对耦合罐系统的最佳控制。控制器调谐已作为多目标混合灵敏度最小化，用于调整分数级PID（FOPID）控制器和BAT算法（MOBA）的多目标变体和差分演进（模式）已被用于优化。使用分数阶控制器提供了更好的流程动态表征，并使用多目标优化调整有助于实现灵敏度和互补灵敏度之间的强大权衡。与MOBA和模式一起调整的FOPID控制器都存在对外部干扰的鲁棒行为，并且比较结果表明，MOBA调谐控制器呈现有效跟踪参考。

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《International Conference on Soft Computing for Problem Solving》|2016年|xix 1045 pages :|共12页
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Nitish Katal; Shiv Narayan;
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中图分类 TP301.6-532;
关键词
Fractional-order control; Differential evolution; Bat algorithm; Coupled tank systems; Multi-objective optimization;

机译：分数控制;差分演化;BAT算法;耦合罐系统;多目标优化;

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1. Design of robust fractional order PID controllers for coupled tank systems using multi-objective particle swarm optimisation [J] . Katal Nitish, Narayan Shiv International journal of systems,control and communications . 2017,第3期

机译：基于多目标粒子群算法的耦合坦克系统鲁棒分数阶PID控制器设计
2. Design and experimental realization of a robust decentralized PI controller for a coupled tank system [J] . Mahapatro Soumya Ranjan, Subudhi Bidyadhar, Ghosh Sandip ISA Transactions . 2019,第期

机译：用于耦合罐系统的鲁棒分流PI控制器的设计与实验实现
3. Analysis, control and design of speed control of electric vehicles delayed model: multi-objective fuzzy fractional-order PI^lambda D^mu PIλDμ controller [J] . Mohammad Hassan Khooban, Mokhtar ShaSadeghi, Taher Niknam, Science, Measurement & Technology, IET . 2017,第3期

机译：电动汽车延迟模型的速度控制分析，控制与设计：多目标模糊分数阶PI ^ lambda D ^ muPIλDμ控制器
4. Multi-objective Optimization-Based Design of Robust Fractional-Order PIλDμ Controller for Coupled Tank Systems [C] . Nitish Katal, Shiv Narayan International Conference on Soft Computing for Problem Solving . 2016

机译：基于多目标优化的耦合罐系统的鲁棒分数阶Piλdμ控制器设计
5. Multi-objective robust control: Design of mixed l(1)/H(infinity) controllers. [D] . Bu, Juanyu. 1997

机译：多目标鲁棒控制：混合l（1）/ H（infinity）控制器的设计。
6. Robust fractional-order auto-tuning for highly-coupled MIMO systems [O] . Jasper Juchem, Cristina Muresan, Robain De Keyser, 2019

机译：高耦合MIMO系统的鲁棒分数阶自动调谐
7. PI Controller Design for a Coupled Tank System Using LMI Approach: An Experimental Study [O] . Soumya Ranjan M, Bidyadhar S 2015

机译：使用LMI方法的耦合罐系统PI控制器设计：实验研究

Multi-objective Optimization-Based Design of Robust Fractional-Order PIλDμ Controller for Coupled Tank Systems

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