Delay-dependent Stability for Systems with Fast-varying Neutral-type Delays via a PTVD Compensation
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摘要: 研究了一类带有时变时滞的线性中立型系统的稳定性, 其中中立型项中的时滞包括一类快变时滞(即, 时滞导数大于1). 目前, 还没有文献考虑带有这种带有快变中立型时滞的系统. 通过使用新的Lyapunov-Krasovskii泛函和带有时滞的多项式(PTVD)补偿技术, 对于此类系统提出了具有更少保守性的时滞依赖稳定性判据. 通过使用新的泛函可以实现处理快变时滞的目的. 同时, 通过使用PTVD补偿技术, 可以在判据中引入一些有用的元素. 而在之前的结果中, 当估计Lyapunov-Krasovskii泛函的上界时, 这些元素通常是被忽略的. 一个数值例子将被提供来验证所得到结果的有效性.
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关键词:
- 线性中立型系统 /
- 稳定性 /
- 时滞依赖 /
- 快变中立型时滞 /
- 带有时滞的多项式(PTVD)补偿技术
Abstract: The stability for a class of linear neutral systems with time-varying delays is studied in this paper, where delay in neutral-type term includes a fast-varying case (i.e., the derivative of delay is more than one), which has never been considered in current literature. The less conservative delay-dependent stability criteria for this system are proposed by applying new Lyapunov-Krasovskii functional and novel polynomials with time-varying delay (PTVD) compensation technique. The aim to deal with systems with fast-varying neutral-type delay can be achieved by using the new functional. The benefit brought by applying the PTVD compensation technique is that some useful elements can be included in criteria, which are generally ignored when estimating the upper bound of derivative of Lyapunov-Krasovskii functional. A numerical example is provided to verify the effectiveness of the proposed results.
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