Title :
Flip gait synthesis of a biped based on Poincare map
Author :
Geng, Tao ; Xu, Xiaoming
Author_Institution :
Dept. of Autom., Shanghai Jiaotong Univ., China
Abstract :
A novel manner of one-legged bipedal locomotion (i.e., ballistic flip) is proposed in this paper. A flip is composed of three sequential stages: stance phase, flight phase and touchdown. During the stance phase, the two objectives of control, constant locomotive speed and taking off at the end of stance phase, are achieved via a control algorithm based on nonlinear feedback linearization. The flight phase needs no active control. Combining dynamics of the three stages, we construct the Poincare map numerically for a complete flip gait, and then use a gain-tuning strategy to stabilise the fixed point of the Poincare map corresponding to an unstable cyclic flip gait One simulation result is given to verify the effectiveness of this strategy
Keywords :
Poincare mapping; feedback; legged locomotion; linearisation techniques; nonlinear control systems; robot dynamics; stability; Poincare map; flight phase; flip gait synthesis; nonlinear feedback linearization; one-legged bipedal locomotion; robot dynamics; stance phase; touchdown; Automatic control; Engine cylinders; Leg; Legged locomotion; Linear feedback control systems; Manipulators; Motion control; Robot control; Robot sensing systems; Robotics and automation;
Conference_Titel :
Robot Motion and Control, 2001 Proceedings of the Second International Workshop on
Conference_Location :
Bukowy Dworek
Print_ISBN :
83-7143-515-0
DOI :
10.1109/ROMOCO.2001.973461
