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Relaxing the Control-gain Assumptions of DSC Design for Nonlinear MIMO Systems

机译：放宽非线性MIMO系统的DSC设计的控制增益假设

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This work focuses on adaptive neural dynamic surface control (DSC) for an extended class of nonlinear MIMO strict-feedback systems whose control gain functions are continuous and possibly unbounded. The method is based on introducing a compact set which is eventually proved to be an invariant set: thanks to this set, the restrictive assumption that the upper and lower bounds of control gain functions must be bounded is removed. This method substantially enlarges the class of systems for which DSC can be applied. By utilizing Lyapunov theorem and invariant set theory, it is rigorously proved that all signals in the closed-loop systems are semi-globally uniformly ultimately bounded (SGUUB) and the output tracking errors converge to an arbitrarily small residual set. A simulation example is provided to demonstrate the effectiveness of the proposed approach.

机译：这项工作的重点是自适应非线性神经动态表面控制（DSC），用于一类扩展的非线性MIMO严格反馈系统，其控制增益函数是连续的，并且可能是无界的。该方法基于引入一个紧凑集合，该集合最终被证明是不变集合：由于有了这个集合，消除了必须限制控制增益函数的上下边界的限制性假设。这种方法极大地扩大了可应用DSC的系统类别。利用李雅普诺夫定理和不变集理论，严格证明了闭环系统中的所有信号都是半全局一致的最终有界（SGUUB），并且输出跟踪误差收敛到任意小的残差集。提供了一个仿真示例，以演示所提出方法的有效性。

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来源
《Asian Control Conference》|2019年|1595-1600|共6页
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作者
Yong Chen; Maolong Lv; Simone Baldi; Zongcheng Liu; Wenqian Zhang; Yang Zhou;
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Adaptive systems; MIMO communication; Stability analysis; Nonlinear systems; Backstepping; Control design;

机译：自适应系统MIMO通信稳定性分析非线性系统Backstepping控制设计;

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专利

1. Fuzzy Adaptive DSC Design for an Extended Class of MIMO Pure-Feedback Non-Affine Nonlinear Systems in the Presence of Input Constraints [J] . Wang Ning, Wang Ying, Lv Maolong Mathematical Problems in Engineering . 2019,第PTa1期

机译：输入约束条件下扩展类MIMO纯反馈非仿射非线性系统的模糊自适应DSC设计
2. Fuzzy Adaptive DSC Design for an Extended Class of MIMO Pure-Feedback Non-Affine Nonlinear Systems in the Presence of Input Constraints [J] . Wang Ning, Wang Ying, Lv Maolong Mathematical Problems in Engineering . 2019,第PTa1期

机译：模糊自适应DSC设计在输入约束存在下扩展类MIMO纯反馈非仿射非线性系统
3. Fuzzy Adaptive DSC Design for an Extended Class of MIMO Pure-Feedback Non-Affine Nonlinear Systems in the Presence of Input Constraints [J] . Ning Wang, Ying Wang, Maolong Lv Mathematical Problems in Engineering: Theory, Methods and Applications . 2019,第1期

机译：模糊自适应DSC设计在输入约束存在下扩展类MIMO纯反馈非仿射非线性系统
4. Relaxing the Control-gain Assumptions of DSC Design for Nonlinear MIMO Systems [C] . Yong Chen, Maolong Lv, Simone Baldi, Asian Control Conference . 2019

机译：放宽非线性MIMO系统DSC设计的控制增益假设
5. Design of linear and non-linear MIMO transceivers: Single and multiple user systems with different channel knowledge assumptions. [D] . Shenouda, Michael Botros. 2008

机译：线性和非线性MIMO收发器的设计：具有不同信道知识假设的单用户系统和多用户系统。
6. Wavelet Fuzzy Brain Emotional Learning Control System Design for MIMO Uncertain Nonlinear Systems [O] . Jing Zhao, Chih-Min Lin, Fei Chao 2018

机译：MIMO不确定非线性系统的小波模糊脑情感学习控制系统设计
7. Design of a fuzzy adaptive controller for MIMO nonlinear time-delay systems with unknown actuator nonlinearities and unknown control direction [O] . A. Boulkroune, M. M’Saad, H. Chekireb 2010

机译：具有未知致动器非线性和未知控制方向的MIMO非线性时滞系统模糊自适应控制器的设计
8. Observer Design for a Class of MIMO Nonlinear Systems (Preprint) [R] . Lei, H. , Wei, J. , Lin, W. , 2006

机译：一类mImO非线性系统的观测器设计（预印本）

Relaxing the Control-gain Assumptions of DSC Design for Nonlinear MIMO Systems

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