Abstract:
In this paper, the asymptotic stability of uncertain discrete switched systems with interval time-varying delay and linear fractional perturbations is achieved via switch...Show MoreMetadata
Abstract:
In this paper, the asymptotic stability of uncertain discrete switched systems with interval time-varying delay and linear fractional perturbations is achieved via switching signal design. Some linear matrix inequality (LMI) stability criteria are provided to design the switching signal by the proposed non-uniform delay-partitioning approach. Finally, some numerical examples are illustrated to show the main developed results.
Published in: IMA Journal of Mathematical Control and Information ( Volume: 33, Issue: 3, September 2016)
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- Index Terms
- Time-delay Systems ,
- Switching Signal ,
- Delay-partitioning Approach ,
- Switching Signal Design ,
- Numerical Examples ,
- Asymptotically Stable ,
- Linear Matrix Inequalities ,
- Neural Network ,
- Stability Of System ,
- Linear System ,
- Positive Integer ,
- Symmetric Matrix ,
- Lyapunov Function ,
- Constant Matrix ,
- Delay Interval ,
- Linear Matrix Inequality Conditions ,
- Arbitrary Switching
- Author Keywords
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- Index Terms
- Time-delay Systems ,
- Switching Signal ,
- Delay-partitioning Approach ,
- Switching Signal Design ,
- Numerical Examples ,
- Asymptotically Stable ,
- Linear Matrix Inequalities ,
- Neural Network ,
- Stability Of System ,
- Linear System ,
- Positive Integer ,
- Symmetric Matrix ,
- Lyapunov Function ,
- Constant Matrix ,
- Delay Interval ,
- Linear Matrix Inequality Conditions ,
- Arbitrary Switching
- Author Keywords
