首页 /研究 /Development, Analysis, and Control of Series Elastic Actuator-Driven Robot Leg
LOCOMOTION

Development, Analysis, and Control of Series Elastic Actuator-Driven Robot Leg

Chan Lee, Sehoon Oh

发表年份
2019
引用次数
40
访问权限
开放获取

摘要

The mass-spring system-like behavior is a powerful analysis tool to simplify human running/locomotion and is also known as the Spring Loaded Inverted Pendulum (SLIP) model. Beyond being just an analysis tool, the SLIP model is utilized as a template for implementing human-like locomotion by using the articulated robot. Since the dynamics of the articulated robot exhibits complicated behavior when projected into the operational space of the SLIP template, various considerations are required, from the robot's mechanical design to its control and analysis. Hence, the required technologies are the realization of pure mass-spring behavior during the interaction with the ground and the robust position control capability in the operational space of the robot. This paper develops a robot leg driven by the Series Elastic Actuator (SEA), which is a suitable actuator system for interacting with the environment, such as the ground. A robust hybrid control method is developed for the SEA-driven robot leg to achieve the required technologies. Furthermore, the developed robot leg has biarticular coordination, which is a human-inspired design that can effectively transmit the actuator torque to the operational space. This paper also employs Rotating Workspace (RW), which specializes in the control of the biarticulated robots. Various experiments are conducted to verify the performance of the developed robot leg with the control methodology.

关键词

ActuatorWorkspaceRobotComputer scienceControl theory (sociology)Inverted pendulumControl engineeringRobot kinematicsMobile robotCartesian coordinate robot

相关论文

查看 LOCOMOTION 分类全部论文