Inverse optimal control of a nonlinear Euler-Lagrange system, part II: Output feedback

Inverse optimal control of a nonlinear Euler-Lagrange system, part II: Output feedback

Previous inverse optimal adaptive controllers (IOACs) have been developed that can handle structured (i.e., linear in the parameters (LP)) uncertainty for a particular class of nonlinear systems. A full-state feedback IOAC is developed in the companion Part I paper for Euler-Lagrange systems with an...

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Hauptverfasser: Dupree, K., Johnson, M., Patre, P.M., Dixon, W.E.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Adaptive control
Control systems
Nonlinear control systems
Nonlinear systems
Optimal control
Output feedback
Performance analysis
Programmable control
Time varying systems
Uncertainty
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Zusammenfassung:Previous inverse optimal adaptive controllers (IOACs) have been developed that can handle structured (i.e., linear in the parameters (LP)) uncertainty for a particular class of nonlinear systems. A full-state feedback IOAC is developed in the companion Part I paper for Euler-Lagrange systems with an uncertain time varying inertia matrix. In this paper, an output feedback IOAC is developed to asymptotically minimize a meaningful performance index while the generalized coordinates of a nonlinear Euler-Lagrange system asymptotically track a desired time-varying trajectory despite LP uncertainty. A Lyapunov analysis is provided to examine the stability of the developed output feedback optimal controller, and preliminary experimental results illustrate the performance of the controller.
ISSN:0191-2216
DOI:10.1109/CDC.2009.5399758