Title :
Command Filtered Backstepping
Author :
Farrell, Jay A. ; Polycarpou, Marios ; Sharma, Manu ; Dong, Wenjie
Author_Institution :
Dept. of Electical Eng., Univ. of California, Riverside, CA
fDate :
6/1/2009 12:00:00 AM
Abstract :
Implementation of backstepping becomes increasingly complex as the order of the system increases. This increasing complexity is mainly driven by the need to compute command derivatives at each step of the design, with the ultimate step requiring derivatives of the same order as the plant. This article addresses a modification that obviates the need to compute analytic derivatives by introducing command filters in the backstepping design. While the concept of the command filter has previously been introduced in the literature, the main contribution of this technical note is the rigorous analysis of the effect of the command filter on closed-loop stability and performance, and a proof of stability based on Tikhonov´s theorem. The implementation approach includes a compensated tracking error that retains the standard stability properties of backstepping approaches.
Keywords :
closed loop systems; control system synthesis; error compensation; filtering theory; nonlinear control systems; stability; tracking; Tikhonov theorem; closed-loop stability; command filtered backstepping control approach; nonlinear control design; tracking error compensation; Automatic control; Backstepping; Bandwidth; Control systems; Equations; Feedback; Filters; Lyapunov method; Missiles; Nonlinear filters; Nonlinear systems; Performance analysis; Robustness; Signal design; Stability analysis; State-space methods; Transient response; Backstepping; nonlinear control; singular perturbation;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2009.2015562
