基于动力学模型预测控制的Stewart型轮足腿控制方法

Shoukun Wang; Dajiang Liu; Fei Guo; Binkai Yue; Zhihua Chen; Junzheng Wang

doi:10.15918/j.tbit1001-0645.2020.036

基于动力学模型预测控制的Stewart型轮足腿控制方法

Translated title of the contribution: Stewart Type Wheel-Foot Leg Control Method Based on Dynamics and Model Predictive Control

Shoukun Wang, Dajiang Liu^*, Fei Guo, Binkai Yue, Zhihua Chen, Junzheng Wang

^*Corresponding author for this work

School of Automation

Beijing Institute of Technology

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

5 Citations (Scopus)

Abstract

To improve the motion precision and dynamics of Stewart type wheel-foot leg under variable posture, a dynamics model predictive control (MPC) was proposed. Firstly, the force analysis was carried out for Stewart platform and a dynamics model was derived with the Newton-Euler for state-space representation. Then, the MPC predictive model and cost function were established for optimization. Next, Adams and Matlab joint simulation was performed to regulate the MPC controller and evaluate its robustness to the un-modeled friction. Finally, the comparative experiments were conducted to verify the superiority of MPC controller to PI controller in terms of motion dynamics and precision under variable posture.

Translated title of the contribution	Stewart Type Wheel-Foot Leg Control Method Based on Dynamics and Model Predictive Control
Original language	Chinese (Traditional)
Pages (from-to)	418-424
Number of pages	7
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	41
Issue number	4
DOIs	https://doi.org/10.15918/j.tbit1001-0645.2020.036
Publication status	Published - Apr 2021

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title = "基于动力学模型预测控制的Stewart型轮足腿控制方法",

abstract = "To improve the motion precision and dynamics of Stewart type wheel-foot leg under variable posture, a dynamics model predictive control (MPC) was proposed. Firstly, the force analysis was carried out for Stewart platform and a dynamics model was derived with the Newton-Euler for state-space representation. Then, the MPC predictive model and cost function were established for optimization. Next, Adams and Matlab joint simulation was performed to regulate the MPC controller and evaluate its robustness to the un-modeled friction. Finally, the comparative experiments were conducted to verify the superiority of MPC controller to PI controller in terms of motion dynamics and precision under variable posture.",

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author = "Shoukun Wang and Dajiang Liu and Fei Guo and Binkai Yue and Zhihua Chen and Junzheng Wang",

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AU - Liu, Dajiang

AU - Guo, Fei

AU - Yue, Binkai

AU - Chen, Zhihua

AU - Wang, Junzheng

PY - 2021/4

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N2 - To improve the motion precision and dynamics of Stewart type wheel-foot leg under variable posture, a dynamics model predictive control (MPC) was proposed. Firstly, the force analysis was carried out for Stewart platform and a dynamics model was derived with the Newton-Euler for state-space representation. Then, the MPC predictive model and cost function were established for optimization. Next, Adams and Matlab joint simulation was performed to regulate the MPC controller and evaluate its robustness to the un-modeled friction. Finally, the comparative experiments were conducted to verify the superiority of MPC controller to PI controller in terms of motion dynamics and precision under variable posture.

AB - To improve the motion precision and dynamics of Stewart type wheel-foot leg under variable posture, a dynamics model predictive control (MPC) was proposed. Firstly, the force analysis was carried out for Stewart platform and a dynamics model was derived with the Newton-Euler for state-space representation. Then, the MPC predictive model and cost function were established for optimization. Next, Adams and Matlab joint simulation was performed to regulate the MPC controller and evaluate its robustness to the un-modeled friction. Finally, the comparative experiments were conducted to verify the superiority of MPC controller to PI controller in terms of motion dynamics and precision under variable posture.

KW - Dynamics model

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KW - Model predictive control(MPC)

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KW - Wheel-foot robot

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基于动力学模型预测控制的Stewart型轮足腿控制方法

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