Title :
Reliable gait planning for a quadruped walking robot
Author :
Chuangfeng, Huai ; Pingan, Liu
Author_Institution :
Coll. of Mech. & Electron. Eng., East China Jiaotong Univ., Nanchang, China
Abstract :
Presents a method for designing reliable gaits for structural symmetrical quadruped robot capable of performing statically stable, omnidirectional walking on irregular terrain. Robot´s virtual model is constructed and a control algorithm is proposed by applying virtual components at some strategic locations. At the joint control level of the proposed gait control, sample-based interpolation makes the joint trajectory tractable for the small motor and controller of the miniaturized robot. Centroid body sway ensures walking stability to achieve reliability of the proposed gaits at the motion planning level. Simulation results are presented to show the system´s efficiency and stability in adapting to an uncertain terrain.
Keywords :
interpolation; legged locomotion; motion control; path planning; robot dynamics; stability; centroid body sway; gait planning; joint control level; joint trajectory; miniaturized robot; motion planning; omnidirectional walking; quadruped walking robot; robot virtual model; sample-based interpolation; structural symmetrical quadruped robot; walking stability; Chaos; Control systems; Delay; Design methodology; Differential equations; Disruption tolerant networking; Legged locomotion; Nonlinear control systems; Oscillators; Stability criteria; Contact Force; Friction Pyramid; Quadruped walking; Structural symmetrical; Virtual leg;
Conference_Titel :
Control and Decision Conference (CCDC), 2010 Chinese
Conference_Location :
Xuzhou
Print_ISBN :
978-1-4244-5181-4
Electronic_ISBN :
978-1-4244-5182-1
DOI :
10.1109/CCDC.2010.5498555
