Combination of Hardware and Control to Reduce Humanoids Fall Damage

Xuechao Chen; Wenpeng Ding; Zhangguo Yu; Libo Meng; Marco Ceccarelli; Qiang Huang

doi:10.1142/S0219843620500024

Combination of Hardware and Control to Reduce Humanoids Fall Damage

Xuechao Chen, Wenpeng Ding, Zhangguo Yu^*, Libo Meng, Marco Ceccarelli, Qiang Huang

^*Corresponding author for this work

School of Mechatronical Engineering

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

Most existing motion control methods for humanoids aim at avoiding falling. However, the humanoid is generally an unstable system that cannot completely avoid falling and it is difficult to cope with the sudden fall of a robot. This paper designs a planning method of fall protection for humanoids according to the human falling motion. This method changes the impact position between the robot and ground by adjusting the motion of the robot as it falls. To further reduce damage to the robot, an appropriate cushioning material is installed at the point of impact to buffer the robot. The effectiveness of the proposed method is verified for a BHR6P humanoid robot falling in simulations and experiments.

Original language	English
Article number	2050002
Journal	International Journal of Humanoid Robotics
Volume	17
Issue number	1
DOIs	https://doi.org/10.1142/S0219843620500024
Publication status	Published - 1 Feb 2020

Keywords

Humanoids
cushioning material
fall protection

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10.1142/S0219843620500024

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title = "Combination of Hardware and Control to Reduce Humanoids Fall Damage",

abstract = "Most existing motion control methods for humanoids aim at avoiding falling. However, the humanoid is generally an unstable system that cannot completely avoid falling and it is difficult to cope with the sudden fall of a robot. This paper designs a planning method of fall protection for humanoids according to the human falling motion. This method changes the impact position between the robot and ground by adjusting the motion of the robot as it falls. To further reduce damage to the robot, an appropriate cushioning material is installed at the point of impact to buffer the robot. The effectiveness of the proposed method is verified for a BHR6P humanoid robot falling in simulations and experiments.",

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author = "Xuechao Chen and Wenpeng Ding and Zhangguo Yu and Libo Meng and Marco Ceccarelli and Qiang Huang",

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AU - Chen, Xuechao

AU - Ding, Wenpeng

AU - Yu, Zhangguo

AU - Meng, Libo

AU - Ceccarelli, Marco

AU - Huang, Qiang

PY - 2020/2/1

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N2 - Most existing motion control methods for humanoids aim at avoiding falling. However, the humanoid is generally an unstable system that cannot completely avoid falling and it is difficult to cope with the sudden fall of a robot. This paper designs a planning method of fall protection for humanoids according to the human falling motion. This method changes the impact position between the robot and ground by adjusting the motion of the robot as it falls. To further reduce damage to the robot, an appropriate cushioning material is installed at the point of impact to buffer the robot. The effectiveness of the proposed method is verified for a BHR6P humanoid robot falling in simulations and experiments.

AB - Most existing motion control methods for humanoids aim at avoiding falling. However, the humanoid is generally an unstable system that cannot completely avoid falling and it is difficult to cope with the sudden fall of a robot. This paper designs a planning method of fall protection for humanoids according to the human falling motion. This method changes the impact position between the robot and ground by adjusting the motion of the robot as it falls. To further reduce damage to the robot, an appropriate cushioning material is installed at the point of impact to buffer the robot. The effectiveness of the proposed method is verified for a BHR6P humanoid robot falling in simulations and experiments.

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Combination of Hardware and Control to Reduce Humanoids Fall Damage

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