Title :
Robustness analysis of a gradient-based repetitive algorithm for discrete-time systems
Author :
Hätönen, Jari ; Freeman, Chris ; Owens, David H. ; Lewin, Paul ; Rogers, Eric
Author_Institution :
Dept. of Autom. Control & Syst. Eng., Sheffield Univ., UK
Abstract :
This paper investigates the possibility of using a truncated finite impulse response (FIR) model approximation to implement a well-known gradient type repetitive control algorithm. As a result it is in fact shown that the algorithm iteratively solves a model predictive control related cost function. Furthermore, it is shown how accurate the FIR approximation of the original system has to be in order for the algorithm to converge to zero tracking error. Under certain assumptions on the plant model it is shown that the algorithm results in monotonic convergence in the l∞-norm. The algorithm is applied in real-time to a nonminimum mass-damper-spring system, and experimental results are compared to the theoretical results.
Keywords :
approximation theory; convergence of numerical methods; discrete time systems; gradient methods; FIR model approximation; discrete-time systems; gradient type repetitive control; gradient-based repetitive algorithm; model predictive control related cost function; monotonic convergence; robustness analysis; truncated finite impulse response; zero tracking error; Algorithm design and analysis; Approximation algorithms; Convergence; Cost function; Finite impulse response filter; Iterative algorithms; Predictive control; Predictive models; Real time systems; Robustness;
Conference_Titel :
Decision and Control, 2004. CDC. 43rd IEEE Conference on
Print_ISBN :
0-7803-8682-5
DOI :
10.1109/CDC.2004.1430222
