- Title
- Bounds and invariant sets for a class of switching systems with delayed-state-dependent perturbations
- Creator
- Haimovich, Hernan; Seron, María M.
- Relation
- Automatica Vol. 49, Issue 3, p. 748-754
- Publisher Link
- http://dx.doi.org/10.1016/j.automatica.2012.10.002
- Publisher
- Pergamon Press
- Resource Type
- journal article
- Date
- 2013
- Description
- We present a novel method to compute componentwise transient bounds, componentwise ultimate bounds, and invariant regions for a class of switching continuous-time linear systems with perturbation bounds that may depend nonlinearly on a delayed state. The main advantage of the method is its componentwise nature, i.e. the fact that it allows each component of the perturbation vector to have an independent bound and that the bounds and sets obtained are also given componentwise. This componentwise method does not employ a norm for bounding either the perturbation or state vectors, avoids the need for scaling the different state vector components in order to obtain useful results, and may also reduce conservativeness in some cases. The present paper builds upon and extends to switching systems with delayed-state-dependent perturbations previous results by the authors. In this sense, the contribution is three-fold: the derivation of the aforementioned extension; the elucidation of the precise relationship between the class of switching linear systems to which the proposed method can be applied and those that admit a common quadratic Lyapunov function (a question that was left open in our previous work); and the derivation of a technique to compute a common quadratic Lyapunov function for switching linear systems with perturbations bounded componentwise by affine functions of the absolute value of the state vector components. In this latter case, we also show how our componentwise method can be combined with standard techniques in order to derive bounds possibly tighter than those corresponding to either method applied individually.
- Subject
- switching systems; ultimate bounds; invariant sets; componentwise methods; practical stability
- Identifier
- http://hdl.handle.net/1959.13/1057754
- Identifier
- uon:16256
- Identifier
- ISSN:0005-1098
- Language
- eng
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