Title :
Passivity-based Adaptive Trajectory Linearization Control for a model-scaled unmanned helicopter
Author :
Bing Zhu ; Wei Huo
Author_Institution :
Seventh Res. Div., Beihang Univ., Beijing, China
Abstract :
The passivity-based design approach developed in robotics research is applied to trajectory linearization control (TLC) for a model-scaled unmanned helicopter with uncertain inertial parameters. The previous developed TLC algorithm for the unmanned helicopter is implemented with estimated inertial parameters and adaptive law to update estimated parameters is designed to address parameter uncertainties. Stability of the closed-loop system controlled by proposed adaptive control strategy is proved within the passivity-based control theoretical framework. Performances of the passivity-based adaptive controller is demonstrated by simulation results.
Keywords :
adaptive control; aircraft control; autonomous aerial vehicles; closed loop systems; helicopters; linearisation techniques; parameter estimation; path planning; stability; trajectory control; uncertain systems; TLC algorithm; adaptive control strategy; adaptive law; closed-loop system stability; inertial parameter estimation; model-scaled unmanned helicopter; parameter uncertainties; passivity-based adaptive controller; passivity-based adaptive trajectory linearization control; passivity-based control theoretical framework; robotics research; uncertain inertial parameters; Adaptation models; Closed loop systems; Helicopters; Mathematical model; Rotors; Trajectory; Uncertain systems; Adaptive control; passivity; trajectory-tracking; unmanned helicopter;
Conference_Titel :
Control Conference (CCC), 2013 32nd Chinese
Conference_Location :
Xi´an
