Dynamics modeling and shape keeping of the maneuverable net robot

Zhong Jie Meng; Pan Feng Huang

doi:10.3873/j.issn.1000-1328.2015.07.002

Dynamics modeling and shape keeping of the maneuverable net robot

Zhong Jie Meng, Pan Feng Huang

School of Astronautics

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

2 Scopus citations

Abstract

For the dynamics modeling problem of maneuverable net robots (MNR), firstly an undirected graph is used to describe the MNR. Secondly, interval functions and corresponding constraint forces are designed to represent the tether dynamics of the net. Then, the dynamics model is built based on the Hamilton principle, and a numerical treatment method based on the Lemke algorithm and the Runge Kutta integrator is presented. For its shape keeping problem, a cooperative controller with double layer optimization pseudo dynamic inversion and sliding mode control is designed. The simulation result shows that the cooperative controller can be used to control the MNR motion along the expected trajectory and keep the net shape effectively, and the net deformation and the orbital radial movement are prevented.

Original language	English
Pages (from-to)	755-762
Number of pages	8
Journal	Yuhang Xuebao/Journal of Astronautics
Volume	36
Issue number	7
DOIs	https://doi.org/10.3873/j.issn.1000-1328.2015.07.002
State	Published - 30 Jul 2015

Keywords

Dynamics modeling
Interval function
Maneuverable net robot (MNR)
Shape keeping

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10.3873/j.issn.1000-1328.2015.07.002

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title = "Dynamics modeling and shape keeping of the maneuverable net robot",

abstract = "For the dynamics modeling problem of maneuverable net robots (MNR), firstly an undirected graph is used to describe the MNR. Secondly, interval functions and corresponding constraint forces are designed to represent the tether dynamics of the net. Then, the dynamics model is built based on the Hamilton principle, and a numerical treatment method based on the Lemke algorithm and the Runge Kutta integrator is presented. For its shape keeping problem, a cooperative controller with double layer optimization pseudo dynamic inversion and sliding mode control is designed. The simulation result shows that the cooperative controller can be used to control the MNR motion along the expected trajectory and keep the net shape effectively, and the net deformation and the orbital radial movement are prevented.",

keywords = "Dynamics modeling, Interval function, Maneuverable net robot (MNR), Shape keeping",

author = "Meng, {Zhong Jie} and Huang, {Pan Feng}",

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T1 - Dynamics modeling and shape keeping of the maneuverable net robot

AU - Meng, Zhong Jie

AU - Huang, Pan Feng

PY - 2015/7/30

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N2 - For the dynamics modeling problem of maneuverable net robots (MNR), firstly an undirected graph is used to describe the MNR. Secondly, interval functions and corresponding constraint forces are designed to represent the tether dynamics of the net. Then, the dynamics model is built based on the Hamilton principle, and a numerical treatment method based on the Lemke algorithm and the Runge Kutta integrator is presented. For its shape keeping problem, a cooperative controller with double layer optimization pseudo dynamic inversion and sliding mode control is designed. The simulation result shows that the cooperative controller can be used to control the MNR motion along the expected trajectory and keep the net shape effectively, and the net deformation and the orbital radial movement are prevented.

AB - For the dynamics modeling problem of maneuverable net robots (MNR), firstly an undirected graph is used to describe the MNR. Secondly, interval functions and corresponding constraint forces are designed to represent the tether dynamics of the net. Then, the dynamics model is built based on the Hamilton principle, and a numerical treatment method based on the Lemke algorithm and the Runge Kutta integrator is presented. For its shape keeping problem, a cooperative controller with double layer optimization pseudo dynamic inversion and sliding mode control is designed. The simulation result shows that the cooperative controller can be used to control the MNR motion along the expected trajectory and keep the net shape effectively, and the net deformation and the orbital radial movement are prevented.

KW - Dynamics modeling

KW - Interval function

KW - Maneuverable net robot (MNR)

KW - Shape keeping

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Dynamics modeling and shape keeping of the maneuverable net robot

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Keywords

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