Title :
Simulation of an autonomous biped walking robot including environmental force interaction
Author :
Fujimoto, Yasutaka ; Kawamura, Atsuo
Author_Institution :
Dept. of Electr. Eng., Keio Univ., Yokohama, Japan
fDate :
6/1/1998 12:00:00 AM
Abstract :
This autonomous biped walking control system is based on reactive force interaction at the foothold. The precise 3D dynamic simulation presented includes: 1) a posture controller which accommodates the physical constraints of the reactive force/torque on the foot with quadratic programming; 2) a real-time COM (center of mass) tracking controller for foot placement, with a discrete inverted pendulum model; and 3) a 3D dynamic simulation scheme with precise contact with the environment. The proposed approach realizes robust biped locomotion because environmental interaction is directly controlled. The proposed method is applied to a 20 axes simulation model, and stable biped locomotion with velocity of 0.25 m/sec and a stepping time of 0.5 sec/step is realized
Keywords :
digital simulation; discrete systems; hierarchical systems; integration; legged locomotion; path planning; position control; quadratic programming; robot dynamics; robust control; 3D dynamic simulation; autonomous biped walking robot; discrete inverted pendulum model; environmental force interaction; foot placement; physical constraints; posture controller; reactive force/torque; real-time center of mass tracking controller; robust biped locomotion; Automatic control; Control systems; Foot; Force control; Jacobian matrices; Legged locomotion; Manipulator dynamics; Robot kinematics; Robotics and automation; Robust control; Torque control; Weight control;
Journal_Title :
Robotics & Automation Magazine, IEEE
