Title :
Relaxed and Hybridized Backstepping
Author :
Stein Shiromoto, Humberto ; Andrieu, Vincent ; Prieur, Christophe
Author_Institution :
GIPSA-Lab., Grenoble, France
Abstract :
In this technical note, we consider nonlinear control systems for which there exist structural obstacles to the design of classical continuous backstepping feedback laws. We conceive feedback laws such that the origin of the closed-loop system is not globally asymptotically stable but a suitable attractor (strictly containing the origin) is practically asymptotically stable. A design method is suggested to build a hybrid feedback law combining a backstepping controller with a locally stabilizing controller. A constructive approach is also suggested employing a differential inclusion representation of the nonlinear dynamics. The results are illustrated for a nonlinear system which, due to its structure, does not have a priori any globally stabilizing backstepping controller.
Keywords :
asymptotic stability; closed loop systems; control system synthesis; feedback; nonlinear dynamical systems; asymptotically stable; backstepping controller; closed-loop system; design method; feedback laws; hybrid feedback law; hybridized backstepping; nonlinear control systems; relaxed backstepping; structural obstacles; Backstepping; Closed loop systems; Design methodology; Equations; Nonlinear dynamical systems; Symmetric matrices; Vectors; Control design; hybrid control systems; nonlinear control systems;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2013.2263613
