Sparse point clouds fitting in 3D reconstruction for welding environment

Xinghua Yu; Zhimin Liang; Hongming Gao; Guangjun Zhang

Sparse point clouds fitting in 3D reconstruction for welding environment

Xinghua Yu^*, Zhimin Liang, Hongming Gao, Guangjun Zhang

^*Corresponding author for this work

Harbin Institute of Technology

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

1 Citation (Scopus)

Abstract

3D reconstruction for non-structured environment is the key technology in virtual environment in remote welding. The welding environment was reconstructed based on stereo vision. Because welding environment is lack of feature points for stereo matching. The tags were added onto welding workpieces to provide feature points. Sub-pixel corner extraction and human-assist stereo matching was applied to acquire sparse point clouds of welding environment. The least square algorithm for plane fitting and Tikhonov regulation for quadric surface were used to fit the sparse point. Quasi-optimality criterion was used to choose the regulation parameter. The workpieces of plane and cylinder were reconstructed and the 3D models of workpieces were obtained. The results show that the fitting deviations for both planar and quadric models are all less than 1 mm, and the maximum deviations are less than 3 mm.

Original language	English
Pages (from-to)	109-112
Number of pages	4
Journal	Hanjie Xuebao/Transactions of the China Welding Institution
Volume	28
Issue number	6
Publication status	Published - Jun 2007
Externally published	Yes

Keywords

3D reconstruction
Quadric fitting
Remote welding
Stereo vision

Cite this

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title = "Sparse point clouds fitting in 3D reconstruction for welding environment",

abstract = "3D reconstruction for non-structured environment is the key technology in virtual environment in remote welding. The welding environment was reconstructed based on stereo vision. Because welding environment is lack of feature points for stereo matching. The tags were added onto welding workpieces to provide feature points. Sub-pixel corner extraction and human-assist stereo matching was applied to acquire sparse point clouds of welding environment. The least square algorithm for plane fitting and Tikhonov regulation for quadric surface were used to fit the sparse point. Quasi-optimality criterion was used to choose the regulation parameter. The workpieces of plane and cylinder were reconstructed and the 3D models of workpieces were obtained. The results show that the fitting deviations for both planar and quadric models are all less than 1 mm, and the maximum deviations are less than 3 mm.",

keywords = "3D reconstruction, Quadric fitting, Remote welding, Stereo vision",

author = "Xinghua Yu and Zhimin Liang and Hongming Gao and Guangjun Zhang",

year = "2007",

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language = "English",

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pages = "109--112",

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publisher = "Harbin Research Institute of Welding",

number = "6",

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TY - JOUR

T1 - Sparse point clouds fitting in 3D reconstruction for welding environment

AU - Yu, Xinghua

AU - Liang, Zhimin

AU - Gao, Hongming

AU - Zhang, Guangjun

PY - 2007/6

Y1 - 2007/6

N2 - 3D reconstruction for non-structured environment is the key technology in virtual environment in remote welding. The welding environment was reconstructed based on stereo vision. Because welding environment is lack of feature points for stereo matching. The tags were added onto welding workpieces to provide feature points. Sub-pixel corner extraction and human-assist stereo matching was applied to acquire sparse point clouds of welding environment. The least square algorithm for plane fitting and Tikhonov regulation for quadric surface were used to fit the sparse point. Quasi-optimality criterion was used to choose the regulation parameter. The workpieces of plane and cylinder were reconstructed and the 3D models of workpieces were obtained. The results show that the fitting deviations for both planar and quadric models are all less than 1 mm, and the maximum deviations are less than 3 mm.

AB - 3D reconstruction for non-structured environment is the key technology in virtual environment in remote welding. The welding environment was reconstructed based on stereo vision. Because welding environment is lack of feature points for stereo matching. The tags were added onto welding workpieces to provide feature points. Sub-pixel corner extraction and human-assist stereo matching was applied to acquire sparse point clouds of welding environment. The least square algorithm for plane fitting and Tikhonov regulation for quadric surface were used to fit the sparse point. Quasi-optimality criterion was used to choose the regulation parameter. The workpieces of plane and cylinder were reconstructed and the 3D models of workpieces were obtained. The results show that the fitting deviations for both planar and quadric models are all less than 1 mm, and the maximum deviations are less than 3 mm.

KW - 3D reconstruction

KW - Quadric fitting

KW - Remote welding

KW - Stereo vision

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JO - Hanjie Xuebao/Transactions of the China Welding Institution

JF - Hanjie Xuebao/Transactions of the China Welding Institution

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Sparse point clouds fitting in 3D reconstruction for welding environment

Abstract

Keywords

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