Title :
Creep dynamics of nonholonomic systems
Author :
Wang, Jiunn-Cherng ; Huang, Han-Pang
Author_Institution :
Dept. of Mech. Eng., Nat. Taiwan Univ., Taipei, Taiwan
Abstract :
Basic concepts about the creep behavior of nonholonomic constrained (NC) systems were discussed previously by us (1995). Two fundamental types of creep kinematics were proposed and the hybrid one could be developed. In this work, we extend to the creep dynamics of typical NC systems such as the disk, sleigh and wheel. First, certain reduced models of constrained motion such as ideal, relative, pair, and general-pair models are explored and related. Secondly, by the invariant manifold method of singular perturbation, fundamental rotational and traverse creep dynamics and a hybrid one are calculated in an approximate way. They can be close to the complete system as possible. Therefore, the bridge between reduced and invariant analyses can be made by the model of general-pair creep and can help us understand physical implications behind the approximate solutions. It is proven that advanced vehicle techniques, such as the anti-lock braking system and a special tracking control system, can be realized by the proposed quasi-constrained creeps
Keywords :
creep; dynamics; kinematics; mechanical engineering; reduced order systems; singularly perturbed systems; anti-lock braking system; constrained motion; creep dynamics; creep kinematics; invariant manifold method; nonholonomic systems; reduced models; singular perturbation; tracking control system; Bridges; Control system synthesis; Creep; Friction; Intelligent vehicles; Kinematics; Mechanical engineering; Tracking; Vehicle dynamics; Wheels;
Conference_Titel :
Robotics and Automation, 1996. Proceedings., 1996 IEEE International Conference on
Conference_Location :
Minneapolis, MN
Print_ISBN :
0-7803-2988-0
DOI :
10.1109/ROBOT.1996.509238
