Regional Eigenvalue-Clustering Robustness Analysis for Linear Discrete Time-Delay Systems with Both Structured and Unstructured Parameter Uncertainties
スポンサーリンク
概要
- 論文の詳細を見る
In this paper, the problem of the regional eigenvalue-clustering robustness analysis for linear discrete time-delay systems with both structured (elemental) and unstructured (norm-bounded) parameter uncertainties is investigated. Under the assumption that all the eigenvalues of a linear nominal discrete time-delay system lie within a specified region, a new sufficient condition is proposed to preserve the assumed property when both the structured (elemental) and the unstructured (norm-bounded) parameter uncertainties are added into the linear nominal discrete time-delay system. No restriction is imposed on the shapes of the specified region. When all the eigenvalues are just required to locate inside the unit circle, the proposed criterion will become the robust stability criterion. For the case that the linear discrete time-delay system only subjects to structured (elemental) parameter uncertainties, by two illustrative examples, the presented sufficient condition is shown to be less conservative than the existing one reported recently in the literature.
- 一般社団法人日本機械学会の論文
- 2004-06-15
著者
-
Chen Shinn-horng
Department Of Mechanical Engineering National Kaohsiung University Of Applied Sciences
-
Chen Shinn-horng
Department Of Mechanical Engineering National Kaohsiung Institute Of Technology
-
Chou Jyh-horng
Department Of Mechanical And Automation Engineering National Kaohsiung First University Of Science A
関連論文
- Solutions of Takagi-Sugeno Fuzzy-Model-Based Dynamic Equations via Orthogonal Functions(Systems and Control)
- Robust Stability Measures for Discrete-Time Linear Regulators with Computational Delays
- Pole Assignment Robustness in a Specified Region for Perturbed Large-Scale Systems
- Robust Stability Bound on Linear Time-Varying Uncertainties for Linear Digital Control Systems under Finite Wordlength Effects
- Stability Robustness of the LQG System with Noise Uncertainty and Nonlinear/Linear Time-Varying Plant Perturbations
- A Robustness Measure of Eigenvalue Distribution in Complementary Regions for Perturbed Systems
- Regional Eigenvalue-Clustering Robustness Analysis for Linear Discrete Time-Delay Systems with Both Structured and Unstructured Parameter Uncertainties
- Optimal Takagi-Sugeno Fuzzy Gain-Scheduler Design Using Taguchi-MHGA Method
- New Non-Lyapunov Approach to Robust Eigenvalue-Clustering Analysis
- Robust Stability Analysis of TS-Fuzzy-Model-Based Control Systems with Both Elemental Parametric Uncertainties and Norm-Bounded Approximation Error
- Robust Stability of Time-Varying Interval Systems