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Journal Article

Citation

Cui D, Peers C, Wang G, Chen Z, Richardson R, Zhou C. Bioinspir. Biomim. 2021; ePub(ePub): ePub.

Copyright

(Copyright © 2021, Institute of Physics Publishing)

DOI

10.1088/1748-3190/ac1ab9

PMID

unavailable

Abstract

Falls are a common risk and impose severe threats to both humans and humanoid robots as a product of bipedal locomotion. Inspired by human fall arrest, we present a novel humanoid robot fall prevention strategy by using arms to make contact with environmental objects. Firstly, the capture point (CP) method is used to detect falling. Once the fall is inevitable, the arm of the robot will be actuated to gain contact with an environmental object to prevent falling. We propose a hypothesis that humans naturally favour to select a pose that can generate a suitable Cartesian stiffness of the arm end-effector. Based on this principle, a configuration optimiser is designed to choose a pose of the arm that maximises the value of the stiffness ellipsoid of the endpoint along the impact force direction. During contact, the upper limb acts as an adjustable active spring-damper and absorbs impact shock to steady itself. To validate the proposed strategy, several simulations are performed in MATLAB & Simulink by having the humanoid robot confront a wall as a case study in which the strategy is proved to be effective and feasible. The results show that using the optimised posture can reduce the joint torque during impact when the arms are used to arrest the fall.


Language: en

Keywords

balance control; bipedal locomotion; body balance; fall arrest; humanoid robots; stiffness ellipsoid optimisation

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