Title :
A Speed-Gradient Adaptive Control with State/Disturbance Observer for Autonomous Subaquatic Vehicles
Author :
Jordán, Mario Alberto ; Bustamante, Jorge Luis
Author_Institution :
Argentinean Inst. of Oceanogr.-UNS, Bahia Blanca
Abstract :
In this paper the design of a nonlinear adaptive control system for fully actuated autonomous underwater vehicles in 6 degrees of freedom is presented. Both the positioning and kinematic tracking-problem are dealt with jointly in the adaptive approach. No knowledge about parameters of the vehicle dynamics and hydrodynamics is required beforehand for the design, except only for the thruster dynamics. The adaptation was carried out through a nonlinear speed-gradient adaptive control law. The dynamics of thrusters is considered in the design employing an inverse-dynamics technique and state/disturbance observation. The proof of the asymptotic convergence of the overall controlled system is shown. Selected numerical simulations depict the features of the proposed approach
Keywords :
adaptive control; control system synthesis; convergence; mobile robots; nonlinear control systems; observers; remotely operated vehicles; robot dynamics; robot kinematics; underwater vehicles; 6 degrees of freedom; autonomous subaquatic vehicles; autonomous underwater vehicles; disturbance observer; hydrodynamics; inverse dynamics; kinematic tracking; nonlinear adaptive control system; path tracking; positioning tracking; speed-gradient adaptive control; state observer; vehicle dynamics; Adaptive control; Convergence; Hydrodynamics; Kinematics; Mobile robots; Nonlinear dynamical systems; Remotely operated vehicles; Underwater tracking; Underwater vehicles; Vehicle dynamics; Convergence; Disturbance/state observer; Nonlinear adaptive control; Path tracking; Speed-gradient control; Underwater vehicle;
Conference_Titel :
Decision and Control, 2006 45th IEEE Conference on
Conference_Location :
San Diego, CA
Print_ISBN :
1-4244-0171-2
DOI :
10.1109/CDC.2006.377169
