Knee-stretched walking with toe-off and heel-strike for a position-controlled humanoid robot based on model predictive control

Zelin Huang; Zhangguo Yu; Xuechao Chen; Qingqing Li; Libo Meng; Chencheng Dong; Xiang Meng; Wenxi Liao; Qiang Huang

doi:10.1177/17298814211036282

Knee-stretched walking with toe-off and heel-strike for a position-controlled humanoid robot based on model predictive control

Zelin Huang, Zhangguo Yu, Xuechao Chen^*, Qingqing Li, Libo Meng, Chencheng Dong, Xiang Meng, Wenxi Liao, Qiang Huang

^*Corresponding author for this work

School of Mechatronical Engineering

Beijing Institute of Technology

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

4 Citations (Scopus)

Abstract

Knee-stretched walking is considered to be a human-like and energy-efficient gait. The strategy of extending legs to obtain vertical center of mass trajectory is commonly used to avoid the problem of singularities in knee-stretched gait generation. However, knee-stretched gait generation utilizing this strategy with toe-off and heel-strike has kinematics conflicts at transition moments between single support and double support phases. In this article, a knee-stretched walking generation with toe-off and heel-strike for the position-controlled humanoid robot has been proposed. The position constraints of center of mass have been considered in the gait generation to avoid the kinematics conflicts based on model predictive control. The method has been verified in simulation and validated in experiment.

Original language	English
Journal	International Journal of Advanced Robotic Systems
Volume	18
Issue number	4
DOIs	https://doi.org/10.1177/17298814211036282
Publication status	Published - 2021

Keywords

Humanoid robot
center of mass
gait generation
knee-stretched walking
position-controlled

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10.1177/17298814211036282

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title = "Knee-stretched walking with toe-off and heel-strike for a position-controlled humanoid robot based on model predictive control",

abstract = "Knee-stretched walking is considered to be a human-like and energy-efficient gait. The strategy of extending legs to obtain vertical center of mass trajectory is commonly used to avoid the problem of singularities in knee-stretched gait generation. However, knee-stretched gait generation utilizing this strategy with toe-off and heel-strike has kinematics conflicts at transition moments between single support and double support phases. In this article, a knee-stretched walking generation with toe-off and heel-strike for the position-controlled humanoid robot has been proposed. The position constraints of center of mass have been considered in the gait generation to avoid the kinematics conflicts based on model predictive control. The method has been verified in simulation and validated in experiment.",

keywords = "Humanoid robot, center of mass, gait generation, knee-stretched walking, position-controlled",

author = "Zelin Huang and Zhangguo Yu and Xuechao Chen and Qingqing Li and Libo Meng and Chencheng Dong and Xiang Meng and Wenxi Liao and Qiang Huang",

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T1 - Knee-stretched walking with toe-off and heel-strike for a position-controlled humanoid robot based on model predictive control

AU - Huang, Zelin

AU - Yu, Zhangguo

AU - Chen, Xuechao

AU - Li, Qingqing

AU - Meng, Libo

AU - Dong, Chencheng

AU - Meng, Xiang

AU - Liao, Wenxi

AU - Huang, Qiang

PY - 2021

Y1 - 2021

N2 - Knee-stretched walking is considered to be a human-like and energy-efficient gait. The strategy of extending legs to obtain vertical center of mass trajectory is commonly used to avoid the problem of singularities in knee-stretched gait generation. However, knee-stretched gait generation utilizing this strategy with toe-off and heel-strike has kinematics conflicts at transition moments between single support and double support phases. In this article, a knee-stretched walking generation with toe-off and heel-strike for the position-controlled humanoid robot has been proposed. The position constraints of center of mass have been considered in the gait generation to avoid the kinematics conflicts based on model predictive control. The method has been verified in simulation and validated in experiment.

AB - Knee-stretched walking is considered to be a human-like and energy-efficient gait. The strategy of extending legs to obtain vertical center of mass trajectory is commonly used to avoid the problem of singularities in knee-stretched gait generation. However, knee-stretched gait generation utilizing this strategy with toe-off and heel-strike has kinematics conflicts at transition moments between single support and double support phases. In this article, a knee-stretched walking generation with toe-off and heel-strike for the position-controlled humanoid robot has been proposed. The position constraints of center of mass have been considered in the gait generation to avoid the kinematics conflicts based on model predictive control. The method has been verified in simulation and validated in experiment.

KW - Humanoid robot

KW - center of mass

KW - gait generation

KW - knee-stretched walking

KW - position-controlled

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DO - 10.1177/17298814211036282

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Knee-stretched walking with toe-off and heel-strike for a position-controlled humanoid robot based on model predictive control

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