Title :
Nonlinear control by input-output pole assignment: State space derivation
Author :
Taylor, Camillo J. ; Chotai, A.
Author_Institution :
Eng. Dept., Lancaster Univ., Lancaster, UK
Abstract :
This paper considers pole assignment control of nonlinear dynamic systems described by State Dependent Parameter (SDP) models. The approach follows from earlier research into linear Non-Minimal State Space (NMSS) methods but, in the nonlinear case, the control gains are updated at each sampling instant. The algorithm is derived directly from the NMSS model, necessitating the introduction of a state dependent transformation matrix. This state variable feedback derivation lends itself to straightforward controllability and stability analysis. In this regard, the paper shows that the closed-loop system reduces to a linear transfer function with the specified poles; and that these differ from the closed-loop transition matrix eigenvalues.
Keywords :
closed loop systems; controllability; eigenvalues and eigenfunctions; linear systems; matrix algebra; nonlinear control systems; nonlinear dynamical systems; pole assignment; sampling methods; stability; state feedback; state-space methods; transfer functions; NMSS method; SDP model; closed-loop system; closed-loop transition matrix; control gain; controllability; eigenvalue; input-output pole assignment control; linear nonminimal state space; linear transfer function; nonlinear control; nonlinear dynamic system; sampling instant; stability analysis; state dependent parameter; state dependent transformation matrix; state space derivation; state variable feedback derivation; discrete-time nonlinear systems; eigenvalues; non-minimal state space; nonlinear pole assignment; state dependent parameter; time-varying parameter;
Conference_Titel :
Control 2010, UKACC International Conference on
Conference_Location :
Coventry
Electronic_ISBN :
978-1-84600-038-6
DOI :
10.1049/ic.2010.0430
