A new implementation of the ICP algorithm for 3D surface registration using a comprehensive look up matrix

A. Almhdie; C. Léger; M. Deriche; R. Lédée

A new implementation of the ICP algorithm for 3D surface registration using a comprehensive look up matrix

A. Almhdie
, C. Léger
, M. Deriche
, R. Lédée

Université d'Orléans
King Fahd University of Petroleum and Minerals

Research output: Contribution to journal › Conference article › peer-review

2 Scopus citations

Abstract

The iterative closest point algorithm is one of the most efficient algorithms for robust rigid registration of 3D data. It consists in finding the closest points between two sets of data which are then used to estimate the parameters of the global rigid transformation to register the two data sets. All the steps of the algorithm are highly dependent upon the accuracy with which correspondence pairs of points are found. In this paper, a new enhanced implementation of the ICP algorithm proposes to use a look up matrix for finding the best correspondence pairs. It results in reducing the minimum mean square error between the two data sets after registration, compared to existing implementations. The algorithm was implemented and tested to evaluate its convergence properties and robustness to noise. Performance improvements are obtained. The new algorithm has successfully been applied to register 3D medical data.

Original language	English
Journal	European Signal Processing Conference
State	Published - 2006
Externally published	Yes
Event	14th European Signal Processing Conference, EUSIPCO 2006 - Florence, Italy Duration: 4 Sep 2006 → 8 Sep 2006

Cite this

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title = "A new implementation of the ICP algorithm for 3D surface registration using a comprehensive look up matrix",

abstract = "The iterative closest point algorithm is one of the most efficient algorithms for robust rigid registration of 3D data. It consists in finding the closest points between two sets of data which are then used to estimate the parameters of the global rigid transformation to register the two data sets. All the steps of the algorithm are highly dependent upon the accuracy with which correspondence pairs of points are found. In this paper, a new enhanced implementation of the ICP algorithm proposes to use a look up matrix for finding the best correspondence pairs. It results in reducing the minimum mean square error between the two data sets after registration, compared to existing implementations. The algorithm was implemented and tested to evaluate its convergence properties and robustness to noise. Performance improvements are obtained. The new algorithm has successfully been applied to register 3D medical data.",

author = "A. Almhdie and C. L{\'e}ger and M. Deriche and R. L{\'e}d{\'e}e",

year = "2006",

language = "English",

journal = "European Signal Processing Conference",

issn = "2219-5491",

publisher = "European Signal Processing Conference, EUSIPCO",

note = "14th European Signal Processing Conference, EUSIPCO 2006 ; Conference date: 04-09-2006 Through 08-09-2006",

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TY - JOUR

T1 - A new implementation of the ICP algorithm for 3D surface registration using a comprehensive look up matrix

AU - Almhdie, A.

AU - Léger, C.

AU - Deriche, M.

AU - Lédée, R.

PY - 2006

Y1 - 2006

N2 - The iterative closest point algorithm is one of the most efficient algorithms for robust rigid registration of 3D data. It consists in finding the closest points between two sets of data which are then used to estimate the parameters of the global rigid transformation to register the two data sets. All the steps of the algorithm are highly dependent upon the accuracy with which correspondence pairs of points are found. In this paper, a new enhanced implementation of the ICP algorithm proposes to use a look up matrix for finding the best correspondence pairs. It results in reducing the minimum mean square error between the two data sets after registration, compared to existing implementations. The algorithm was implemented and tested to evaluate its convergence properties and robustness to noise. Performance improvements are obtained. The new algorithm has successfully been applied to register 3D medical data.

AB - The iterative closest point algorithm is one of the most efficient algorithms for robust rigid registration of 3D data. It consists in finding the closest points between two sets of data which are then used to estimate the parameters of the global rigid transformation to register the two data sets. All the steps of the algorithm are highly dependent upon the accuracy with which correspondence pairs of points are found. In this paper, a new enhanced implementation of the ICP algorithm proposes to use a look up matrix for finding the best correspondence pairs. It results in reducing the minimum mean square error between the two data sets after registration, compared to existing implementations. The algorithm was implemented and tested to evaluate its convergence properties and robustness to noise. Performance improvements are obtained. The new algorithm has successfully been applied to register 3D medical data.

UR - https://www.scopus.com/pages/publications/84862588691

M3 - Conference article

AN - SCOPUS:84862588691

SN - 2219-5491

JO - European Signal Processing Conference

JF - European Signal Processing Conference

T2 - 14th European Signal Processing Conference, EUSIPCO 2006

Y2 - 4 September 2006 through 8 September 2006

ER -

A new implementation of the ICP algorithm for 3D surface registration using a comprehensive look up matrix

Abstract

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