FOPID Control with Parameter Optimization for Hydrostatically-Actuated Autonomous Excavators

Moghaddam Amirreza Mirbeygi; Kinsner Witold; Costa Gustavo Koury; Kumar Lokesh; Butt Khurram; Sepehri Nariman

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FOPID Control with Parameter Optimization for Hydrostatically-Actuated Autonomous Excavators

机译：具有用于静电驱动的自主挖掘机参数优化的FOPID控制

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This article presents our recent work towards development of a controller for the new class of modernized excavators. There is an increasing demand to develop autonomous earth-moving machines that are: more efficient than the conventional ones and capable of operating with minimal supervision by operators. A fractional-order pro-portional-integral-derivative (FOPID) control is applied to a newly designed electro-hydrostatic actuator (EHA) circuit for these machines. We further employ the Oustaloup recursive method for which the parameters of the controller are chosen based on the modified Nelder-Mead optimization algorithm. Our experimental results indicate that the proposed controller is capable of controlling the speed of the link with a negligible error. This work paves the road for development of autonomous, energy efficient, off-road mobile machines.

机译：本文介绍了我们最近为新阶级现代化挖掘机制定控制器的工作。越来越多的需求来开发自动的地球移动机器：比传统的竞争更有效，并且能够通过操作员最小的监督操作。为这些机器的新设计的电静压致动器（EHA）电路应用了分数级阶层的Pro-Portional-Integral-ermivative（FoPid）控制。我们进一步采用了基于修改的Nelder-Mead优化算法选择了控制器的参数的频组递归方法。我们的实验结果表明，所提出的控制器能够控制链接的速度与忽略不计的误差。这项工作铺设了自主，节能越野移动机的发展之道。

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来源
《IEEE instrumentation & measurement magazine》 |2021年第2期|109-117|共9页
作者
Moghaddam Amirreza Mirbeygi; Kinsner Witold; Costa Gustavo Koury; Kumar Lokesh; Butt Khurram; Sepehri Nariman;
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作者单位

Univ Manitoba Mech Engn Winnipeg MB Canada;

Univ Manitoba Dept Elect & Comp Engn Winnipeg MB Canada|Univ Manitoba Fluid Power & Telerobot Res Lab Cognit Syst Winnipeg MB Canada|McMaster Univ Hamilton ON Canada|McGill Univ Montreal PQ Canada|Engn Inst Canada Ottawa ON Canada|Canadian Acad Engn Ottawa ON Canada;

Fed Inst Educ Sci & Technol Mech Engn Dept Recife PE Brazil;

Univ Manitoba Fluid Power & Telerobot Res Lab Mech Engn Winnipeg MB Canada;

MicroTraffic Inc Winnipeg MB Canada;

Univ Manitoba Dept Mech Engn Winnipeg MB Canada;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Actuators; Roads; Control systems; Energy efficiency; Optimization; Load modeling; Autonomous systems; Static power converters; Electrohydraulics;

机译：执行器;道路;控制系统;能效;优化;负载建模;自治系统;静电转换器;电液;

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1. New hybrid SPEA/R-deep learning to predict optimization parameters of cascade FOPID controller according engine speed in powertrain mount system control of half-car dynamic model [J] . Dao Dinh-Nam, Guo Li-Xin Journal of intelligent & fuzzy systems: Applications in Engineering and Technology . 2020,第1期

机译：新型混合SPEA / R深度学习预测级联FOPID控制器的优化参数，根据发动机速度在动力总成安装系统控制中的半汽车动态模型
2. Ameliorating the FOPID (PIλDμ) Controller Parameters for Heating Furnace using Optimization Techniques [J] . Amlan Basu, Sumit Mohanty, Rohit Sharma Indian Journal of Science and Technology . 2016,第39期

机译：使用优化技术改善加热炉的FOPID（PIλDμ）控制器参数
3. Novel Technique of Optimizing FOPID Controller Parameters Using BBBC for Higher Order System [J] . S. R. Desai, Rajendra Prasad IETE Journal of Research . 2014,第3期

机译：BBBC优化高阶系统FOPID控制器参数的新技术。
4. Optimization of PID and FOPID controllers with new generation metaheuristic algorithms for controlling AVR system: Concise Survey [C] . Stephen Oladipo, Yanxia Sun, Zenghui Wang International Conference on Computational Intelligence and Communication Networks . 2020

机译：使用新一代用于控制AVR系统的元启发式算法对PID和FOPID控制器进行优化：精简测量
5. Optimization in process design and control: I. Accelerated global optimization for low-order controller design and process optimization. II. Online control of a distributed parameter process: Applications in composites manufacturing. [D] . Schmidt, David Eldon. 2002

机译：过程设计和控制中的优化：I.针对低阶控制器设计和过程优化的加速全局优化。二。在线控制分布式参数过程：在复合材料制造中的应用。
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7. Solution Approach to Automatic Generation Control Problem Using Hybridized Gravitational Search Algorithm Optimized PID and FOPID Controllers [O] . DAHIYA, P., SHARMA, V., NARESH, R. 2015

机译：基于混合引力搜索算法优化pID和FOpID控制器的自动发电控制问题求解方法
8. CONTROL SYSTEM DESIGN USING FREQUENCY DOMAIN MODELS AND PARAMETER OPTIMIZATION, WITH APPLICATION TO SUPERSONIC INLET CONTROLS [R] . Robert C. Seidel, Bruce Lehtinen 1974

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FOPID Control with Parameter Optimization for Hydrostatically-Actuated Autonomous Excavators

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