Sensors (Oct 2021)

Design and Implementation of Symmetric Legged Robot for Highly Dynamic Jumping and Impact Mitigation

  • Lei Wang,
  • Fei Meng,
  • Ru Kang,
  • Ryuki Sato,
  • Xuechao Chen,
  • Zhangguo Yu,
  • Aiguo Ming,
  • Qiang Huang

DOI
https://doi.org/10.3390/s21206885
Journal volume & issue
Vol. 21, no. 20
p. 6885

Abstract

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Aiming at highly dynamic locomotion and impact mitigation, this paper proposes the design and implementation of a symmetric legged robot. Based on the analysis of the three-leg topology in terms of force sensitivity, force production, and impact mitigation, the symmetric leg was designed and equipped with a high torque density actuator, which was assembled by a custom motor and two-stage planetary. Under the kinematic and dynamic constraints of the robot system, a nonlinear optimization for high jumping and impact mitigation is proposed with consideration of the peak impact force at landing. Finally, experiments revealed that the robot achieved a jump height of 1.8 m with a robust landing, and the height was equal to approximately three times the leg length.

Keywords