Accelerating multi-scale flows for LDDKBM diffeomorphic registration

Stefan Horst Sommer

doi:10.1109/ICCVW.2011.6130284

Accelerating multi-scale flows for LDDKBM diffeomorphic registration

Stefan Horst Sommer

Datalogisk Institut

7 Citationer (Scopus)

Abstract

Registrations in medical imaging and computational anatomy can be obtained using the Large Deformation Diffeomorphic Kernel Bundle Mapping (LDDKBM) framework. This provides a registration algorithm with a solid mathematical foundation while incorporating regularization of deformation at multiple scales. Because the variational formulation of LDDKBM implies a heavy computational burden in the search for optimal registrations, exploiting every possibility for faster computation will improve the usability of the algorithm. We present a parallelization strategy using the multi-scale structure and show that the parallelized method constitutes an example of how the processing power of GPUs can massively reduce the running time: after moving the computation to the GPU, we achieve a two order of magnitude speedup over a single-threaded CPU implementation. Not only does this significantly reduce the cost of using multiple scales, it also allows the algorithm to be used on much larger datasets.

Originalsprog	Engelsk
Titel	2011 IEEE International Conference on Computer Vision Workshops (ICCV Workshops)
Antal sider	7
Forlag	IEEE
Publikationsdato	2011
Sider	499-505
ISBN (Trykt)	978-1-4673-0062-9
ISBN (Elektronisk)	978-1-4673-0063-6
DOI	https://doi.org/10.1109/ICCVW.2011.6130284
Status	Udgivet - 2011
Begivenhed	ICCV2011 Workshop: Third Workshop on GPUs for Computer Vision - Barcelona, Spanien Varighed: 11 nov. 2011 → 11 nov. 2011

Workshop

Workshop	ICCV2011 Workshop
Land/Område	Spanien
By	Barcelona
Periode	11/11/2011 → 11/11/2011

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10.1109/ICCVW.2011.6130284

Citationsformater

@inproceedings{50d645b0b4a74faba8cadf6a32a07f8c,

title = "Accelerating multi-scale flows for LDDKBM diffeomorphic registration",

abstract = "Registrations in medical imaging and computational anatomy can be obtained using the Large Deformation Diffeomorphic Kernel Bundle Mapping (LDDKBM) framework. This provides a registration algorithm with a solid mathematical foundation while incorporating regularization of deformation at multiple scales. Because the variational formulation of LDDKBM implies a heavy computational burden in the search for optimal registrations, exploiting every possibility for faster computation will improve the usability of the algorithm. We present a parallelization strategy using the multi-scale structure and show that the parallelized method constitutes an example of how the processing power of GPUs can massively reduce the running time: after moving the computation to the GPU, we achieve a two order of magnitude speedup over a single-threaded CPU implementation. Not only does this significantly reduce the cost of using multiple scales, it also allows the algorithm to be used on much larger datasets.",

author = "Sommer, {Stefan Horst}",

year = "2011",

doi = "10.1109/ICCVW.2011.6130284",

language = "English",

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pages = "499--505",

booktitle = "2011 IEEE International Conference on Computer Vision Workshops (ICCV Workshops)",

publisher = "IEEE",

note = "ICCV2011 Workshop : Third Workshop on GPUs for Computer Vision ; Conference date: 11-11-2011 Through 11-11-2011",

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PY - 2011

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N2 - Registrations in medical imaging and computational anatomy can be obtained using the Large Deformation Diffeomorphic Kernel Bundle Mapping (LDDKBM) framework. This provides a registration algorithm with a solid mathematical foundation while incorporating regularization of deformation at multiple scales. Because the variational formulation of LDDKBM implies a heavy computational burden in the search for optimal registrations, exploiting every possibility for faster computation will improve the usability of the algorithm. We present a parallelization strategy using the multi-scale structure and show that the parallelized method constitutes an example of how the processing power of GPUs can massively reduce the running time: after moving the computation to the GPU, we achieve a two order of magnitude speedup over a single-threaded CPU implementation. Not only does this significantly reduce the cost of using multiple scales, it also allows the algorithm to be used on much larger datasets.

AB - Registrations in medical imaging and computational anatomy can be obtained using the Large Deformation Diffeomorphic Kernel Bundle Mapping (LDDKBM) framework. This provides a registration algorithm with a solid mathematical foundation while incorporating regularization of deformation at multiple scales. Because the variational formulation of LDDKBM implies a heavy computational burden in the search for optimal registrations, exploiting every possibility for faster computation will improve the usability of the algorithm. We present a parallelization strategy using the multi-scale structure and show that the parallelized method constitutes an example of how the processing power of GPUs can massively reduce the running time: after moving the computation to the GPU, we achieve a two order of magnitude speedup over a single-threaded CPU implementation. Not only does this significantly reduce the cost of using multiple scales, it also allows the algorithm to be used on much larger datasets.

U2 - 10.1109/ICCVW.2011.6130284

DO - 10.1109/ICCVW.2011.6130284

M3 - Article in proceedings

SN - 978-1-4673-0062-9

SP - 499

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BT - 2011 IEEE International Conference on Computer Vision Workshops (ICCV Workshops)

PB - IEEE

T2 - ICCV2011 Workshop

Y2 - 11 November 2011 through 11 November 2011

ER -

Accelerating multi-scale flows for LDDKBM diffeomorphic registration

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