基于分解身体平衡和速度跟踪的欠驱动机器人非均匀地形运动控制

2021 6th IEEE International Conference on Advanced Robotics and Mechatronics (ICARM) Pub Date : 2021-07-03 DOI:10.1109/ICARM52023.2021.9536090

Xishuo Zhu, Lvyan Wang, Zhangguo Yu, Xuechao Chen, Lianqiang Han

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引用次数: 4

摘要

对于双足机器人，尤其是欠驱动机器人，在不平整的地面上行走时，身体平衡和速度跟踪是非常重要的。针对欠驱动双足机器人的转矩控制，提出了一种运动控制策略。在该策略中，我们将运动控制分解为身体平衡控制和速度跟踪。身体平衡控制是通过控制身体姿势和两条腿的对称运动来实现身体平衡。采用速度跟踪实现期望的速度，其中速度和加速度反馈来修改髋关节的目标角度。通过对欠驱动双足机器人CRANE的实验，验证了该方法能够实现力矩控制机器人的身体平衡和速度稳定行走。

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Motion Control for Underactuated Robots Adaptable to Uneven Terrain by Decomposing Body Balance and Velocity Tracking

Body balance and velocity tracking are important for biped robots, especially under-actuated robots, walking on uneven ground. This paper presents a motion control strategy for the torque control of an under-actuated biped robot. In the strategy, we decompose the motion control into body balance control and velocity tracking. The body balance control is used to realize body balance by controlling the body posture and symmetrical movement of the two legs. The velocity tracking is adopted to achieve the desired velocity, where the velocity and acceleration feedback to modify the target angles of the hip joints. With the proposed method, a torque-controlled robot can walk with a balanced body and stable velocity, as validated in experiments conducted for the under-actuated bipedal robot CRANE.

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2021 6th IEEE International Conference on Advanced Robotics and Mechatronics (ICARM)

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