Title :
Adaptive control of autonomous bicycle kinematics
Author :
Al-Buraiki, Omar ; El Ferik, Sami
Author_Institution :
Dept. of Syst. Eng., King Fahd Univ. of Pet. & Miner., Al-Dhahran, Saudi Arabia
Abstract :
In this paper, an adaptive Self-Tuning Regulator is proposed to control an autonomous bicycle kinematics. The model used for describing the dynamics of the bicycle is Whipple´s bicycle model. The roll (lean) and the steer angle of the bicycle the two outputs of the model and the torques across the roll and steer angle as the two control variables. The identification technique used in here is recursive least square identification and the proposed control strategy is state feedback control with the controller gain calculated using linear quadratic regulator. The autonomous bicycle was tested for varying velocities and it was observed that the adaptive controller gives a good control action of the bicycle model not just within the stable velocity region but outside it as well.
Keywords :
adaptive control; bicycles; least squares approximations; linear quadratic control; mobile robots; recursive estimation; self-adjusting systems; state feedback; steering systems; vehicle dynamics; Whipple bicycle model; adaptive controller; adaptive self-tuning regulator; autonomous bicycle kinematics; bicycle dynamics; control variables; controller gain; identification technique; linear quadratic regulator; recursive least square identification; roll angle; stable velocity region; state feedback control; steer angle; velocity variation; Motorcycles; Robots; Adaptive Control; Autonomous Bicycle; LGR; Recursive Least Squares; Self Tuning Regulator;
Conference_Titel :
Control, Automation and Systems (ICCAS), 2013 13th International Conference on
Conference_Location :
Gwangju
Print_ISBN :
978-89-93215-05-2
DOI :
10.1109/ICCAS.2013.6704019
