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J4 ›› 2014, Vol. 11 ›› Issue (4): 556-571.doi: 10.1016/S1672-6529(14)60067-6

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Velocity Control of a Bounding Quadruped via Energy Control and Vestibular Reflexes

Xin Wang1,2, Mantian Li1, Wei Guo1, Pengfei Wang1, Lining Sun1   

  1. 1. State Key Laboratory of Robotics and System, Harbin Institute of Technology, Harbin 150001, P. R. China
    2. Department of Advanced Robotics, (Fondazione) Istituto Italiano di Tecnologia, Genova 16163, Italy
  • Online:2014-09-30
  • Contact: Xin Wang E-mail:xin.wang@iit.it

Abstract:

In this paper a bio-inspired approach of velocity control for a quadruped robot running with a bounding gait on compliant legs is set up. The dynamic properties of a sagittal plane model of the robot are investigated. By analyzing the stable fixed points based on Poincare map, we find that the energy change of the system is the main source for forward velocity adjustment. Based on the analysis of the dynamics model of the robot, a new simple linear running controller is proposed using the energy control idea, which requires minimal task level feedback and only controls both the leg torque and ending impact angle. On the other hand, the functions of mammalian vestibular reflexes are discussed, and a reflex map between forward velocity and the pitch movement is built through statistical regression analysis. Finally, a velocity controller based on energy control and vestibular reflexes is built, which has the same structure as the mammalian nervous mechanism for body posture control. The new con-troller allows the robot to run autonomously without any other auxiliary equipment and exhibits good speed adjustment capa-bility. A series simulations and experiments were set to show the good movement agility, and the feasibility and validity of the robot system.

Key words: legged robots, biologically-inspired robots, biomimetics, energy control, vestibular reflexes