Backstepping station-keeping control using recurrent wavelet fuzzy CMAC for ball-driven chairs

机译：使用反复间谍模糊CMAC进行BACKSTEPPING驻留站控制，用于球驱动椅

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This paper presents an adaptive backstopping station-keeping control using recurrent wavelet fuzzy cerebella model articulation controller (RWFCMAC) for omnidirectional ball-driven chairs used in indoor environments. Lagrangian mechanics is adopted to establish a coupled mathematical model of the vehicle; when the nutation angle is sufficiently small, this model is shown to be consistent with the well-known decoupled model under two special cases. Based on the derived model with uncertainties caused by different riders, an intelligent adaptive controller is developed by using RWFCMAC, aggregated hierarchical siding-mode control and backstepping control, in order to maintain the nutation angle at zero. The effectiveness and merit of the proposed controller are exemplified by conducting several simulations on the laboratory-built omnidirectional ball-riding vehicle.

机译：本文介绍了一种自适应的倒退站，使用反复间谍模糊大脑模型关节铰接控制器（RWFCMAC）用于室内环境中的全向球驱动椅。采用拉格朗日力学来建立车辆的耦合数学模型;当询问角度足够小时，该模型显示在两个特殊情况下的众所周知的解耦模型。基于由不同乘车者引起的不确定性的衍生模型，通过使用RWFCMAC，聚合的层级壁板控制和反向仪控制来开发智能自适应控制器，以便将询问角保持为零。所提出的控制器的有效性和优异是通过在实验室构建的全向滚珠车辆上进行若干模拟来举例说明的。

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《International Conference on Machine Learning and Cybernetics》|2014年||共7页
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Ching-Chih Tsai; Yi-Ping Ciou; Feng-Chun Tai; Shun-Fkng Su; Chih-Min Lin;
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中图分类自动推理、机器学习;
关键词
adaptive control; cerebellar model arithmetic computers; control nonlinearities; fuzzy neural nets; intelligent control; neurocontrollers; recurrent neural nets; variable structure systems; wavelet transforms; Lagrangian mechanics; RWFCMAC; adaptive backstepping station-keeping control; aggregated hierarchical sliding-mode control; backstepping station-keeping control; coupled mathematical model; indoor environments; intelligent adaptive controller; laboratory-built omnidirectional ball-riding vehicle; omnidirectional ball-driven chairs; recurrent wavelet fuzzy CMAC; recurrent wavelet fuzzy cerebela model articulation controller; Abstracts; Aerospace electronics; Space stations; Backstepping; Ball-driven chair; Modeling; Recurrent Wavelet Fuzzy CMAC (RWFCMAC); Sliding-mode control; Station-keeping;

机译：自适应控制;小脑模型算术计算机;控制非线性;模糊神经网;智能控制;复发性神经网络;可变结构系统;小波变换;拉格朗日力学;RWFCMAC;rwfcmac;rwfcmac;综合分层滑模控制;聚合的等级滑模控制;靠背站保持控制;耦合数学模型;室内环境;智能自适应控制器;实验室内置的全向滚珠丝杠;全点球驱动椅;复发小波模糊CMAC;复制小波模糊CEREBELA模型铰接控制器;摘要;航空航天电子;空间站;backstepping;球驱动的椅子;建模;复制小波模糊cmac（rwfcmac）;滑模控制;站 - 保持;

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1. Intelligent Control Using the Wavelet Fuzzy CMAC Backstepping Control System for Two-Axis Linear Piezoelectric Ceramic Motor Drive Systems [J] . Chih-Min Lin, Hsin-Yi Li Fuzzy Systems, IEEE Transactions on . 2014,第4期

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2. Adaptive Force/Motion Control System Based on Recurrent Fuzzy Wavelet CMAC Neural Networks for Condenser Cleaning Crawler-Type Mobile Manipulator Robot [J] . Mai T., Wang Y. Control Systems Technology, IEEE Transactions on . 2014,第5期

机译：基于递归模糊小波CMAC神经网络的冷凝器清洁履带式移动机械手机器人自适应力/运动控制系统。
3. Station-keeping control for a stratospheric airship platform via fuzzy adaptive backstepping approach [J] . Yueneng Yang, Jie Wu, Wei Zheng Advances in space research . 2013,第7期

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4. Backstepping station-keeping control using recurrent wavelet fuzzy CMAC for ball-driven chairs [C] . Ching-Chih Tsai, Yi-Ping Ciou, Feng-Chun Tai, International Conference on Machine Learning and Cybernetics . 2014

机译：基于递归小波模糊CMAC的球形驱动椅后推工地保持控制
5. A wavelet-based CMAC for enhanced multidimensional learning. [D] . Kirk, Brian P. 2003

机译：基于小波的CMAC，用于增强多维学习。
6. Adaptive Fuzzy Sliding Mode Control for a Micro Gyroscope with Backstepping Controller [O] . Juntao Fei, Yunmei Fang, Zhuli Yuan 2020

机译：带背插管控制器微型陀螺仪的自适应模糊滑模控制
7. Model-free Adaptive Control Design for Chaotic Systems Via Type-2 Recurrent Wavelet Fuzzy Brain Emotional Learning Networks [O] . Xiaohua Zou, Qingfeng Yang, Feng He, 2021

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Backstepping station-keeping control using recurrent wavelet fuzzy CMAC for ball-driven chairs

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