基于刚柔耦合模型的仿生鸭机器人运动分析

Yan Niu; Liwei Shi; Shuxiang Guo

doi:10.6052/1672-6553-2023-137

基于刚柔耦合模型的仿生鸭机器人运动分析

Translated title of the contribution: Kinematics Analysis of Duck-inspired Robot Based on Rigid-Flexible Coupling Model

Yan Niu, Liwei Shi^*, Shuxiang Guo

^*Corresponding author for this work

School of Medical and Technology

Beijing Institute of Technology

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

Abstract

In order to better simulate practical conditions, a rigid-flexible coupling model of a designed duck-inspired robot was established using Hypermesh and Adams which arc finite element software and dynamics software respectively. The dynamic stress and deformation of the shank were calculated. And two factors impact on the kinematics parameters of the webbed foot were analyzed, namely the deformation of shank and the friction coefficient of the leg joints. The results showed that during the operation of the robot, the shank met the requirements for strength and stiffness. The kinematics parameter error of webbed feet caused by the deformation of the shank will affect the accuracy during motion. Lubricating at joints can decrease the shock of robot. The simulation results can provide reference for the subsequent optimization of robot structures.

Translated title of the contribution	Kinematics Analysis of Duck-inspired Robot Based on Rigid-Flexible Coupling Model
Original language	Chinese (Traditional)
Pages (from-to)	89-95
Number of pages	7
Journal	Journal of Dynamics and Control
Volume	21
Issue number	12
DOIs	https://doi.org/10.6052/1672-6553-2023-137
Publication status	Published - Dec 2023

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title = "基于刚柔耦合模型的仿生鸭机器人运动分析",

abstract = "In order to better simulate practical conditions, a rigid-flexible coupling model of a designed duck-inspired robot was established using Hypermesh and Adams which arc finite element software and dynamics software respectively. The dynamic stress and deformation of the shank were calculated. And two factors impact on the kinematics parameters of the webbed foot were analyzed, namely the deformation of shank and the friction coefficient of the leg joints. The results showed that during the operation of the robot, the shank met the requirements for strength and stiffness. The kinematics parameter error of webbed feet caused by the deformation of the shank will affect the accuracy during motion. Lubricating at joints can decrease the shock of robot. The simulation results can provide reference for the subsequent optimization of robot structures.",

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author = "Yan Niu and Liwei Shi and Shuxiang Guo",

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doi = "10.6052/1672-6553-2023-137",

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T1 - 基于刚柔耦合模型的仿生鸭机器人运动分析

AU - Niu, Yan

AU - Shi, Liwei

AU - Guo, Shuxiang

PY - 2023/12

Y1 - 2023/12

N2 - In order to better simulate practical conditions, a rigid-flexible coupling model of a designed duck-inspired robot was established using Hypermesh and Adams which arc finite element software and dynamics software respectively. The dynamic stress and deformation of the shank were calculated. And two factors impact on the kinematics parameters of the webbed foot were analyzed, namely the deformation of shank and the friction coefficient of the leg joints. The results showed that during the operation of the robot, the shank met the requirements for strength and stiffness. The kinematics parameter error of webbed feet caused by the deformation of the shank will affect the accuracy during motion. Lubricating at joints can decrease the shock of robot. The simulation results can provide reference for the subsequent optimization of robot structures.

AB - In order to better simulate practical conditions, a rigid-flexible coupling model of a designed duck-inspired robot was established using Hypermesh and Adams which arc finite element software and dynamics software respectively. The dynamic stress and deformation of the shank were calculated. And two factors impact on the kinematics parameters of the webbed foot were analyzed, namely the deformation of shank and the friction coefficient of the leg joints. The results showed that during the operation of the robot, the shank met the requirements for strength and stiffness. The kinematics parameter error of webbed feet caused by the deformation of the shank will affect the accuracy during motion. Lubricating at joints can decrease the shock of robot. The simulation results can provide reference for the subsequent optimization of robot structures.

KW - duck-inspired robot

KW - dynamic analysis

KW - finite element method

KW - joint friction

KW - rigid-flexible coupling

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基于刚柔耦合模型的仿生鸭机器人运动分析

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