Physical properties calculation of small body using points triangulations

Wei Shao; Ping Yuan Cui; Hu Tao Cui

Physical properties calculation of small body using points triangulations

Wei Shao^*, Ping Yuan Cui, Hu Tao Cui

^*Corresponding author for this work

School of Aerospace Engineering

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

5 Citations (Scopus)

Abstract

This paper presents a simple and rapid algorithm for small body surface triangulations and physical properities calculation based on 3-D arbitrary points. In order to avoid destroying the original topology due to the non-convex boundary, the arbitrary points are first mapped on the unit sphere and then mapped on a 2-D plane to complete the triangular mesh generation. Based on this, the volume integral can be transformed into polyhedron vertex computation, and the processes of integral reduction using Green formula can be simplified by decomposing the polyhedron into a series of tetrahedrons. Thus the physical properties such as volume, surface aera, center of mass, moment of inertia, principal axis of intertia, gravitational potential, gravitational field intensity of the small body can be computed. Simulation shows the relationship between points number and the calculation accuracy as well as the correctness of the algorithm.

Original language	English
Pages (from-to)	687-691
Number of pages	5
Journal	Harbin Gongye Daxue Xuebao/Journal of Harbin Institute of Technology
Volume	42
Issue number	5
Publication status	Published - May 2010

Keywords

3-D arbitrary points
Green formula
Physical parameter estimation
Small body
Triangulations
Volume integral

Cite this

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title = "Physical properties calculation of small body using points triangulations",

abstract = "This paper presents a simple and rapid algorithm for small body surface triangulations and physical properities calculation based on 3-D arbitrary points. In order to avoid destroying the original topology due to the non-convex boundary, the arbitrary points are first mapped on the unit sphere and then mapped on a 2-D plane to complete the triangular mesh generation. Based on this, the volume integral can be transformed into polyhedron vertex computation, and the processes of integral reduction using Green formula can be simplified by decomposing the polyhedron into a series of tetrahedrons. Thus the physical properties such as volume, surface aera, center of mass, moment of inertia, principal axis of intertia, gravitational potential, gravitational field intensity of the small body can be computed. Simulation shows the relationship between points number and the calculation accuracy as well as the correctness of the algorithm.",

keywords = "3-D arbitrary points, Green formula, Physical parameter estimation, Small body, Triangulations, Volume integral",

author = "Wei Shao and Cui, {Ping Yuan} and Cui, {Hu Tao}",

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T1 - Physical properties calculation of small body using points triangulations

AU - Shao, Wei

AU - Cui, Ping Yuan

AU - Cui, Hu Tao

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N2 - This paper presents a simple and rapid algorithm for small body surface triangulations and physical properities calculation based on 3-D arbitrary points. In order to avoid destroying the original topology due to the non-convex boundary, the arbitrary points are first mapped on the unit sphere and then mapped on a 2-D plane to complete the triangular mesh generation. Based on this, the volume integral can be transformed into polyhedron vertex computation, and the processes of integral reduction using Green formula can be simplified by decomposing the polyhedron into a series of tetrahedrons. Thus the physical properties such as volume, surface aera, center of mass, moment of inertia, principal axis of intertia, gravitational potential, gravitational field intensity of the small body can be computed. Simulation shows the relationship between points number and the calculation accuracy as well as the correctness of the algorithm.

AB - This paper presents a simple and rapid algorithm for small body surface triangulations and physical properities calculation based on 3-D arbitrary points. In order to avoid destroying the original topology due to the non-convex boundary, the arbitrary points are first mapped on the unit sphere and then mapped on a 2-D plane to complete the triangular mesh generation. Based on this, the volume integral can be transformed into polyhedron vertex computation, and the processes of integral reduction using Green formula can be simplified by decomposing the polyhedron into a series of tetrahedrons. Thus the physical properties such as volume, surface aera, center of mass, moment of inertia, principal axis of intertia, gravitational potential, gravitational field intensity of the small body can be computed. Simulation shows the relationship between points number and the calculation accuracy as well as the correctness of the algorithm.

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KW - Green formula

KW - Physical parameter estimation

KW - Small body

KW - Triangulations

KW - Volume integral

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JF - Harbin Gongye Daxue Xuebao/Journal of Harbin Institute of Technology

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Physical properties calculation of small body using points triangulations

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Keywords

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