Title :
Root Locus for Random Reference Tracking in Systems With Saturating Actuators
Author :
Ching, ShiNung ; Kabamba, Pierre T. ; Meerkov, Semyon M.
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Univ. of Michigan, Ann Arbor, MI
Abstract :
This paper develops a root locus technique for random reference tracking in systems with saturating actuators. This is accomplished by introducing the notion of S-poles, which are the poles of the quasilinear system obtained by applying the method of stochastic linearization to the original system with saturation. The path traced by the S-poles on the complex plane when the gain of the controller changes from 0 to infin is the S-root locus. We show that the S-root locus is a subset of the standard root locus, which may terminate prematurely in the so-called termination points. A method for calculating these points is presented and a number of other, more subtle, differences between the usual and the S-root loci are described. In addition, the issue of amplitude truncation in terms of the S-root locus is investigated. Finally, an application of the S-root locus to hard disk drive controller design is presented.
Keywords :
actuators; control system synthesis; disc drives; hard discs; linear systems; linearisation techniques; poles and zeros; root loci; servomechanisms; stochastic systems; tracking; S-poles notion; S-root locus technique; amplitude truncation; controller gain; hard disk drive servo controller design; quasilinear system; random reference tracking; saturating actuator; stochastic linearization method; Actuators; Aerospace control; Automotive engineering; Control design; Hard disks; Helium; Linear systems; Nonlinear systems; Output feedback; Stochastic systems; Constrained control; output feedback; single-input, single-output (SISO);
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2008.2009570
