GPU-accelerated elastic 3D image registration for intra-surgical applications

Daniel Ruijters; Bart M. ter Haar Romeny; Paul Suetens

doi:10.1016/j.cmpb.2010.08.014

GPU-accelerated elastic 3D image registration for intra-surgical applications

Daniel Ruijters, Bart M. ter Haar Romeny, Paul Suetens

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

21 Citaten (Scopus)

Samenvatting

Local motion within intra-patient biomedical images can be compensated by using elastic image registration. The application of B-spline based elastic registration during interventional treatment is seriously hampered by its considerable computation time. The graphics processing unit (GPU) can be used to accelerate the calculation of such elastic registrations by using its parallel processing power, and by employing the hardwired tri-linear interpolation capabilities in order to efficiently perform the cubic B-spline evaluation. In this article it is shown that the similarity measure and its derivatives also can be calculated on the GPU, using a two pass approach. On average a speedup factor 50 compared to a straight-forward CPU implementation was reached.

Originele taal-2	Engels
Pagina's (van-tot)	104-112
Aantal pagina's	9
Tijdschrift	Computer Methods and Programs in Biomedicine
Volume	103
Nummer van het tijdschrift	2
DOI's	https://doi.org/10.1016/j.cmpb.2010.08.014
Status	Gepubliceerd - aug. 2011

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title = "GPU-accelerated elastic 3D image registration for intra-surgical applications",

abstract = "Local motion within intra-patient biomedical images can be compensated by using elastic image registration. The application of B-spline based elastic registration during interventional treatment is seriously hampered by its considerable computation time. The graphics processing unit (GPU) can be used to accelerate the calculation of such elastic registrations by using its parallel processing power, and by employing the hardwired tri-linear interpolation capabilities in order to efficiently perform the cubic B-spline evaluation. In this article it is shown that the similarity measure and its derivatives also can be calculated on the GPU, using a two pass approach. On average a speedup factor 50 compared to a straight-forward CPU implementation was reached.",

keywords = "Graphics processing unit, Image guided neurosurgery, Intraoperative brain deformation, Non-rigid image registration, Parallel algorithms",

author = "Daniel Ruijters and {ter Haar Romeny}, {Bart M.} and Paul Suetens",

year = "2011",

month = aug,

doi = "10.1016/j.cmpb.2010.08.014",

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AU - ter Haar Romeny, Bart M.

AU - Suetens, Paul

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N2 - Local motion within intra-patient biomedical images can be compensated by using elastic image registration. The application of B-spline based elastic registration during interventional treatment is seriously hampered by its considerable computation time. The graphics processing unit (GPU) can be used to accelerate the calculation of such elastic registrations by using its parallel processing power, and by employing the hardwired tri-linear interpolation capabilities in order to efficiently perform the cubic B-spline evaluation. In this article it is shown that the similarity measure and its derivatives also can be calculated on the GPU, using a two pass approach. On average a speedup factor 50 compared to a straight-forward CPU implementation was reached.

AB - Local motion within intra-patient biomedical images can be compensated by using elastic image registration. The application of B-spline based elastic registration during interventional treatment is seriously hampered by its considerable computation time. The graphics processing unit (GPU) can be used to accelerate the calculation of such elastic registrations by using its parallel processing power, and by employing the hardwired tri-linear interpolation capabilities in order to efficiently perform the cubic B-spline evaluation. In this article it is shown that the similarity measure and its derivatives also can be calculated on the GPU, using a two pass approach. On average a speedup factor 50 compared to a straight-forward CPU implementation was reached.

KW - Graphics processing unit

KW - Image guided neurosurgery

KW - Intraoperative brain deformation

KW - Non-rigid image registration

KW - Parallel algorithms

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GPU-accelerated elastic 3D image registration for intra-surgical applications

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