Stepwise inverse consistent Euler’s scheme for diffeomorphic image registration

Akshay Sadananda Uppinakudru Pai; Stefan Horst Sommer; Sune Darkner; Lauge Sørensen; Jon Sporring; Mads Nielsen

doi:10.1007/978-3-319-08554-8_23

Stepwise inverse consistent Euler’s scheme for diffeomorphic image registration

Akshay Sadananda Uppinakudru Pai, Stefan Horst Sommer, Sune Darkner, Lauge Sørensen, Jon Sporring, Mads Nielsen

Datalogisk Institut

2 Citationer (Scopus)

Abstract

Theoretically, inverse consistency in an image registration problem can be achieved by employing a diffeomorphic scheme that uses transformations parametrized by stationary velocity fields (SVF). The displacement from a given SVF, formulated as a series of self compositions of a transformation function, can be obtained by Euler integration in the time domain. However in practice, the discrete time integration produces results that are inverse inconsistent, and inverse consistency in the final solution needs to be explicitly ensured. One way of achieving this is to penalize the endpoint displacement offset obtained by evaluating a composition of the transformation with its inverse at an arbitrary point. In this paper, we propose a variation in which the displacement penalization is required only in the first composition step of the transformation thereby bringing down the computational complexity. We compare these two ways of enforcing inverse consistency by applying the registration framework on four pairs of brain magnetic resonance images. We observe that the proposed stepwise scheme maintains both precision and level of inverse consistency similar to the endpoint scheme.

Originalsprog	Engelsk
Titel	Biomedical Image Registration : 6th International Workshop, WBIR 2014, London, UK, July 7-8, 2014. Proceedings
Redaktører	Sébastien Ourselin, Marc Modat
Antal sider	8
Forlag	Springer
Publikationsdato	2014
Sider	223-230
Kapitel	23
ISBN (Trykt)	978-3-319-08553-1
ISBN (Elektronisk)	978-3-319-08554-8
DOI	https://doi.org/10.1007/978-3-319-08554-8_23
Status	Udgivet - 2014
Begivenhed	6th International Workshop on Biomedical Image Registration - London, Storbritannien Varighed: 7 jul. 2014 → 8 jul. 2014 Konferencens nummer: 6

Konference

Konference	6th International Workshop on Biomedical Image Registration
Nummer	6
Land/Område	Storbritannien
By	London
Periode	07/07/2014 → 08/07/2014

Navn	Lecture notes in computer science
Vol/bind	8545
ISSN	0302-9743

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10.1007/978-3-319-08554-8_23

Citationsformater

Pai, A. S. U., Sommer, S. H., Darkner, S., Sørensen, L., Sporring, J., & Nielsen, M. (2014). Stepwise inverse consistent Euler’s scheme for diffeomorphic image registration. I S. Ourselin, & M. Modat (red.), Biomedical Image Registration: 6th International Workshop, WBIR 2014, London, UK, July 7-8, 2014. Proceedings (s. 223-230). Springer. https://doi.org/10.1007/978-3-319-08554-8_23

Stepwise inverse consistent Euler’s scheme for diffeomorphic image registration. / Pai, Akshay Sadananda Uppinakudru ; Sommer, Stefan Horst ; Darkner, Sune et al.
Biomedical Image Registration: 6th International Workshop, WBIR 2014, London, UK, July 7-8, 2014. Proceedings. red. / Sébastien Ourselin; Marc Modat. Springer, 2014. s. 223-230 (Lecture notes in computer science, Bind 8545).

Publikation: Bidrag til bog/antologi/rapport › Konferencebidrag i proceedings › Forskning › peer review

Pai, ASU , Sommer, SH , Darkner, S , Sørensen, L , Sporring, J & Nielsen, M 2014, Stepwise inverse consistent Euler’s scheme for diffeomorphic image registration. i S Ourselin & M Modat (red), Biomedical Image Registration: 6th International Workshop, WBIR 2014, London, UK, July 7-8, 2014. Proceedings. Springer, Lecture notes in computer science, bind 8545, s. 223-230, 6th International Workshop on Biomedical Image Registration, London, Storbritannien, 07/07/2014. https://doi.org/10.1007/978-3-319-08554-8_23

Pai ASU , Sommer SH , Darkner S , Sørensen L , Sporring J , Nielsen M. Stepwise inverse consistent Euler’s scheme for diffeomorphic image registration. I Ourselin S, Modat M, red., Biomedical Image Registration: 6th International Workshop, WBIR 2014, London, UK, July 7-8, 2014. Proceedings. Springer. 2014. s. 223-230. (Lecture notes in computer science, Bind 8545). doi: 10.1007/978-3-319-08554-8_23

Pai, Akshay Sadananda Uppinakudru ; Sommer, Stefan Horst ; Darkner, Sune et al. / Stepwise inverse consistent Euler’s scheme for diffeomorphic image registration. Biomedical Image Registration: 6th International Workshop, WBIR 2014, London, UK, July 7-8, 2014. Proceedings. red. / Sébastien Ourselin ; Marc Modat. Springer, 2014. s. 223-230 (Lecture notes in computer science, Bind 8545).

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abstract = "Theoretically, inverse consistency in an image registration problem can be achieved by employing a diffeomorphic scheme that uses transformations parametrized by stationary velocity fields (SVF). The displacement from a given SVF, formulated as a series of self compositions of a transformation function, can be obtained by Euler integration in the time domain. However in practice, the discrete time integration produces results that are inverse inconsistent, and inverse consistency in the final solution needs to be explicitly ensured. One way of achieving this is to penalize the endpoint displacement offset obtained by evaluating a composition of the transformation with its inverse at an arbitrary point. In this paper, we propose a variation in which the displacement penalization is required only in the first composition step of the transformation thereby bringing down the computational complexity. We compare these two ways of enforcing inverse consistency by applying the registration framework on four pairs of brain magnetic resonance images. We observe that the proposed stepwise scheme maintains both precision and level of inverse consistency similar to the endpoint scheme.",

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AU - Sørensen, Lauge

AU - Sporring, Jon

AU - Nielsen, Mads

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AB - Theoretically, inverse consistency in an image registration problem can be achieved by employing a diffeomorphic scheme that uses transformations parametrized by stationary velocity fields (SVF). The displacement from a given SVF, formulated as a series of self compositions of a transformation function, can be obtained by Euler integration in the time domain. However in practice, the discrete time integration produces results that are inverse inconsistent, and inverse consistency in the final solution needs to be explicitly ensured. One way of achieving this is to penalize the endpoint displacement offset obtained by evaluating a composition of the transformation with its inverse at an arbitrary point. In this paper, we propose a variation in which the displacement penalization is required only in the first composition step of the transformation thereby bringing down the computational complexity. We compare these two ways of enforcing inverse consistency by applying the registration framework on four pairs of brain magnetic resonance images. We observe that the proposed stepwise scheme maintains both precision and level of inverse consistency similar to the endpoint scheme.

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Stepwise inverse consistent Euler’s scheme for diffeomorphic image registration

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