English

A Modified Schur Method for Robust Pole Assignment in State Feedback Control

Optimization and Control 2014-10-14 v1

Abstract

Recently, a \textbf{SCHUR} method was proposed in \cite{Chu2} to solve the robust pole assignment problem in state feedback control. It takes the departure from normality of the closed-loop system matrix AcA_c as the measure of robustness, and intends to minimize it via the real Schur form of AcA_c. The \textbf{SCHUR} method works well for real poles, but when complex conjugate poles are involved, it does not produce the real Schur form of AcA_c and can be problematic. In this paper, we put forward a modified Schur method, which improves the efficiency of \textbf{SCHUR} when complex conjugate poles are to be assigned. Besides producing the real Schur form of AcA_c, our approach also leads to a relatively small departure from normality of AcA_c. Numerical examples show that our modified method produces better or at least comparable results than both \textbf{place} and \textbf{robpole} algorithms, with much less computational costs.

Keywords

Cite

@article{arxiv.1410.2989,
  title  = {A Modified Schur Method for Robust Pole Assignment in State Feedback Control},
  author = {Guo Zhen-chen and Cai Yun-feng and Qian Jiang and Xu Shu-fang},
  journal= {arXiv preprint arXiv:1410.2989},
  year   = {2014}
}

Comments

24 pages, 4 figures

R2 v1 2026-06-22T06:20:20.030Z