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A Spring Compensation Method for a Low-Cost Biped Robot Based on Whole Body Control.

Zhen WangLei KouWende KeYuhan ChenYan BaiQingfeng LiDongxin Lu
Published in: Biomimetics (Basel, Switzerland) (2023)
At present, the research and application of biped robots is more and more popular. The popularity of biped robots can be better promoted by improving the motion performance of low-cost biped robots. In this paper, the method of the Linear Quadratic Regulator (LQR) is used to track a robot's center of mass (COM). At the same time, the whole-body-control method and value function generated in the process of tracking COM are used to construct the quadratic programming (QP) model of a biped robot. Through the above method, the torque feedforward of the robot is obtained in the Drake simulation platform. The torque feedforward information of the robot is transformed into position feedforward information by spring compensation. In this paper, open loop control and spring compensation are used, respectively, to make the robot perform simple actions. Generally, after the compensation method of spring compensation is adopted, the roll angle and pitch angle of the upper body of the robot are closer to 0 after the robot performs an action. However, as the selected motion can introduce more forward and lateral motions, the robot needs more spring clearance compensation to improve performance. For improving the motion performance of a low-cost biped robot, the experimental results show that the spring compensation method is both reasonable and effective.
Keyphrases
  • low cost
  • magnetic resonance imaging
  • high resolution
  • healthcare
  • high speed
  • transcription factor
  • computed tomography
  • magnetic resonance