On Sampled-Data Control of Nonlinear Asynchronous Switched Systems

IF 2.4 Q2 AUTOMATION & CONTROL SYSTEMS
M. Di Ferdinando;G. Pola;S. Di Gennaro;P. Pepe
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引用次数: 0

Abstract

In this letter, the sampled-data stabilization problem of nonlinear asynchronous switched systems is studied. In particular, a new methodology for the design of sampled-data controllers is provided for fully nonlinear asynchronous switched systems (i.e. not necessarily affine in the control inputs) described by locally Lipschitz functions. Firstly, the new notion of Steepest Descent Switching Feedback (SDSF) is introduced. Then, it is proved the existence of a suitably fast sampling such that the digital implementation of SDSFs (continuous or not) ensures the semi-global practical stability property with arbitrarily small final target ball of the related sampled-data closed-loop system under any kind of switching with arbitrarily pre-fixed dwell time. The stabilization in the sample-and-hold sense theory is used as a tool to prove the results. Possible discontinuities in the function describing the controller at hand are also managed. The case of aperiodic sampling is included in the theory here developed. The proposed theoretical results are validated through a numerical example.
论非线性异步交换系统的采样数据控制
本文研究了非线性异步开关系统的采样数据稳定问题。特别是针对局部 Lipschitz 函数描述的全非线性异步开关系统(即控制输入不一定是仿射的),提供了一种设计采样数据控制器的新方法。首先,引入了新的陡坡下降切换反馈(SDSF)概念。然后,证明了适当快速采样的存在,从而使 SDSF 的数字实现(无论连续与否)能确保相关采样数据闭环系统在任意类型、任意预设停留时间的切换下,具有任意小最终目标球的半全局实际稳定性。证明这些结果的工具是采样和保持意义上的稳定理论。此外,还处理了描述当前控制器的函数中可能存在的不连续性。非周期性采样的情况也包含在此理论中。通过一个数值示例验证了所提出的理论结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
IEEE Control Systems Letters
IEEE Control Systems Letters Mathematics-Control and Optimization
CiteScore
4.40
自引率
13.30%
发文量
471
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