Affiliation:
1. Department of Mathematics Karpagam Academy of Higher Education Coimbatore 641021 India
2. Department of Applied Mathematics Bharathiar University Coimbatore 641046 India
3. Department of Mechanical Engineering Politecnico di Milano Milan 20156 Italy
4. Department of Computer Science and Engineering Karpagam Academy of Higher Education Coimbatore 641021 India
Abstract
SummaryThe design of tracking control problem and compensation of disturbance for switched neutral systems with multiple time‐delays and external disturbances are addressed in this paper. In this regard, a modified repetitive control technique based on the Matausek‐Micic modified Smith predictor approach is being implemented, which assures the exact tracking performance and disturbance attenuation with high precision in the considered system. To be specific, the integration of transfer function with modified Smith predictor block not only provides the accurate compensation of input time‐delays but also ensures the exact estimation and attenuation of external disturbances effectually. Furthermore, according to Lyapunov stability approach combined with average‐dwell‐time technique, a group of adequate conditions is derived in the form of matrix inequalities. Simultaneously, by solving the established matrix inequalities using available software the controller gain matrices are calculated. Ultimately, the simulation results of three numerical examples are presented to validate the efficiency and dominance of the suggested control procedure.
Subject
Electrical and Electronic Engineering,Signal Processing,Control and Systems Engineering