Analysis for a class of singularly perturbed hybrid systems via averaging
- 作者:Wei Wanga ; wewang@ee.unimelb.edu.au ; [Author Vitae] ; Andrew R. Teelb ; teel@ece.uscb.edu ; [Author Vitae] ; Dragan Ne&scaron ; i膰a ; dnesic@unimelb.edu.au ; [Author Vitae]
- 关键词:Singular perturbation ; Averaging ; Hybrid dynamical systems ; Practical stability
- 刊名:Automatica
- 出版年:2012
- 期刊代码:13_00051098
- 类别:cp
- 出版时间:June, 2012
- 卷:48
- 期:6
- 页码:1057-1068
- 文件大小:470 K
摘要
A class of singularly perturbed hybrid dynamical systems is analyzed. The fast states are restricted to a compact set a priori. The continuous-time boundary layer dynamics produce solutions that are assumed to generate a well-defined average vector field for the slow dynamics. This average, the projection of the jump map in the direction of the slow states, and flow and jump sets from the original dynamics define the reduced, or average, hybrid dynamical system. Assumptions about the average system lead to conclusions about the original, higher-dimensional system. For example, forward pre-completeness for the average system leads to a result on closeness of solutions between the original and average system on compact time domains. In addition, global asymptotic stability for the average system implies semiglobal, practical asymptotic stability for the original system. We give examples to illustrate the averaging concept and to relate it to classical singular perturbation results as well as to other singular perturbation results that have appeared recently for hybrid systems. We also use an example to show that our results can be used as an analysis tool to design hybrid feedbacks for continuous-time plants implemented by fast but continuous actuators.