Efficient algorithms for determining 3-D Bi-plane imaging Geometry

Jinhui Xu; Guang Xu; Zhenming Chen; Vikas Singh; Kenneth R. Hoffmann

doi:10.1007/s10878-005-2266-x

Efficient algorithms for determining 3-D Bi-plane imaging Geometry

Jinhui Xu
, Guang Xu
, Zhenming Chen
, Vikas Singh
, Kenneth R. Hoffmann

SUNY Buffalo

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

2 Scopus citations

Abstract

Biplane projection imaging is one of the primary methods for imaging and visualizing the cardiovascular system in medicine. A key problem in such a technique is to determine the imaging geometry (i.e., the relative rotation and translation) of two projections so that the 3-D structure can be accurately reconstructed. Based on interesting observations and efficient geometric techniques, we present in this paper new algorithmic solutions for this problem. Comparing with existing optimization-based approaches, our techniques yield better accuracy and have bounded execution time, thus is more suitable for on-line applications. Our techniques can easily detect outliers to further improve the accuracy.

Original language	English
Pages (from-to)	113-132
Number of pages	20
Journal	Journal of Combinatorial Optimization
Volume	10
Issue number	2
DOIs	https://doi.org/10.1007/s10878-005-2266-x
State	Published - Sep 2005

Keywords

Arrangement
Bi-plane imaging geometry
Computational geometry
Plane sweep

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10.1007/s10878-005-2266-x

Cite this

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title = "Efficient algorithms for determining 3-D Bi-plane imaging Geometry",

abstract = "Biplane projection imaging is one of the primary methods for imaging and visualizing the cardiovascular system in medicine. A key problem in such a technique is to determine the imaging geometry (i.e., the relative rotation and translation) of two projections so that the 3-D structure can be accurately reconstructed. Based on interesting observations and efficient geometric techniques, we present in this paper new algorithmic solutions for this problem. Comparing with existing optimization-based approaches, our techniques yield better accuracy and have bounded execution time, thus is more suitable for on-line applications. Our techniques can easily detect outliers to further improve the accuracy.",

keywords = "Arrangement, Bi-plane imaging geometry, Computational geometry, Plane sweep",

author = "Jinhui Xu and Guang Xu and Zhenming Chen and Vikas Singh and Hoffmann, \{Kenneth R.\}",

year = "2005",

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AU - Xu, Jinhui

AU - Xu, Guang

AU - Chen, Zhenming

AU - Singh, Vikas

AU - Hoffmann, Kenneth R.

PY - 2005/9

Y1 - 2005/9

N2 - Biplane projection imaging is one of the primary methods for imaging and visualizing the cardiovascular system in medicine. A key problem in such a technique is to determine the imaging geometry (i.e., the relative rotation and translation) of two projections so that the 3-D structure can be accurately reconstructed. Based on interesting observations and efficient geometric techniques, we present in this paper new algorithmic solutions for this problem. Comparing with existing optimization-based approaches, our techniques yield better accuracy and have bounded execution time, thus is more suitable for on-line applications. Our techniques can easily detect outliers to further improve the accuracy.

AB - Biplane projection imaging is one of the primary methods for imaging and visualizing the cardiovascular system in medicine. A key problem in such a technique is to determine the imaging geometry (i.e., the relative rotation and translation) of two projections so that the 3-D structure can be accurately reconstructed. Based on interesting observations and efficient geometric techniques, we present in this paper new algorithmic solutions for this problem. Comparing with existing optimization-based approaches, our techniques yield better accuracy and have bounded execution time, thus is more suitable for on-line applications. Our techniques can easily detect outliers to further improve the accuracy.

KW - Arrangement

KW - Bi-plane imaging geometry

KW - Computational geometry

KW - Plane sweep

UR - https://www.scopus.com/pages/publications/24144477303

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JO - Journal of Combinatorial Optimization

JF - Journal of Combinatorial Optimization

IS - 2

ER -

Efficient algorithms for determining 3-D Bi-plane imaging Geometry

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Keywords

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