Magnitude and symmetric optimum criterion for the design of linear control systems: what is it and how does it compare with the others?

Author

Umland, Jeffrey W. ; Safiuddin, Mohammed

Author_Institution

State Univ. of New York, Buffalo, NY, USA

Volume

26

Issue

3

fYear

1990

Firstpage

489

Lastpage

497

Abstract

The magnitude and symmetric optimization techniques are two related methods for designing optimal linear control systems in th frequency domain. Both methods have been used in industry for some time, yet they do not appear to have been well-documented in the English control engineering literature. The development of the criterion is examined, including general solutions for typical controllers. As a basis for comparison, time-domain response optimization techniques, such as minimizing the integral time absolute error, along with state space techniques, i.e. pole placement, are briefly reviewed. Personal computer simulation results of a normalized position control system are given to illustrate these methods

Keywords

control system synthesis; digital simulation; frequency-domain analysis; linear systems; optimisation; position control; state-space methods; time-domain analysis; PC; controllers; design; development; frequency domain; integral time absolute error; linear control systems; microcomputers; optimization; pole placement; position control; state space techniques; time-domain response; Computer errors; Control engineering; Control systems; Design methodology; Design optimization; Electrical equipment industry; Frequency domain analysis; Industrial control; Optimal control; Time domain analysis;

fLanguage

English

Journal_Title

Industry Applications, IEEE Transactions on

Publisher

ieee

ISSN

0093-9994

Type

jour

DOI

10.1109/28.55967

Filename

55967