Partial compensation of large scale discrete systems

Authors

Nicholas Baine, Wright State University - Main Campus
Terry Kolakowski, Wright State University - Main Campus
Julie Lee, Wright State University - Main Campus
Pradeep Misra, Wright State University - Main CampusFollow

Document Type

Conference Proceeding

Publication Date

10-15-2010

Abstract

This paper addresses the problem of partial state feedback compensation for large scale discrete systems. The eigenvalues of the closed-loop matrix should lie within a designated region of the z-domain to satisfy both stability and damping requirements. The system is to be compensated in such a way that only the eigenvalues that lie outside the desired region are affected. This is achieved through the use of the fast matrix sector function to decompose the system without solving for the eigenvalues. The decomposed system is then controlled using LQR design techniques. © 2010 AACC.

Repository Citation

Baine, N., Kolakowski, T., Lee, J., & Misra, P. (2010). Partial compensation of large scale discrete systems. Proceedings of the 2010 American Control Conference, ACC 2010, 2344-2348.
https://corescholar.libraries.wright.edu/ee/14