首页 /研究 /Three-Dimensional Dynamic Running with a Point-Foot Biped based on Differentially Flat SLIP
LOCOMOTION

Three-Dimensional Dynamic Running with a Point-Foot Biped based on Differentially Flat SLIP

Zejun Hong, Hua Chen, Wei Zhang

发表年份
2022
引用次数
8

摘要

This paper presents a novel framework for point- foot biped running in three-dimensional space. The proposed approach generates center of mass (CoM) reference trajectories based on a differentially flat spring-loaded inverted pendulum (SLIP) model. A foothold planner is used to select touch down location that renders optimal CoM trajectory for upcoming step in real time. Dynamically feasible trajectories of CoM and orientation are subsequently generated by a simplified single rigid body (SRB) model based model predictive control (MPC). A task-space controller is then applied online to compute whole- body joint torques which embeds these target dynamics into the robot. The proposed approach is evaluated on physical simulation of a 12 degree-of-freedom (DoF), 7.95 kg point-foot bipedal robot. The robot achieves stable running at at varying speeds with maximum value of 1.1 m/s. The proposed scheme is shown to be able to reject vertical disturbances of 8 N. s and lateral disturbance of 6.5 N. s applied at the robot base.

关键词

Inverted pendulumControl theory (sociology)RobotTorqueComputer scienceTrajectorySlip (aerodynamics)Robot kinematicsPoint (geometry)Simulation

相关论文

查看 LOCOMOTION 分类全部论文