Title :
An efficient parallel algorithm for hierarchical geodesic models in diffeomorphisms
Author :
Singh, Nikhil ; Hinkle, Jacob ; Joshi, Sarang ; Fletcher, P. Thomas
Author_Institution :
Sci. Comput. & Imaging Inst., Univ. of Utah, Salt Lake City, UT, USA
fDate :
April 29 2014-May 2 2014
Abstract :
We present a novel algorithm for computing hierarchical geodesic models (HGMs) for diffeomorphic longitudinal shape analysis. The proposed algorithm exploits the inherent parallelism arising out of the independence in the contributions of individual geodesics to the group geodesic. The previous serial implementation severely limits the use of HGMs to very small population sizes due to computation time and massive memory requirements. The conventional method makes it impossible to estimate the parameters of HGMs on large datasets due to limited memory available onboard current GPU computing devices. The proposed parallel algorithm easily scales to solve HGMs on a large collection of 3D images of several individuals. We demonstrate its effectiveness on longitudinal datasets of synthetically generated shapes and 3D magnetic resonance brain images (MRI).
Keywords :
biomedical MRI; brain; computational geometry; differential geometry; graphics processing units; medical image processing; parallel algorithms; 3D magnetic resonance brain images; GPU computing device; diffeomorphic longitudinal shape analysis; diffeomorphism; hierarchical geodesic model; inherent parallelism; parallel algorithm; serial implementation; Graphics processing units; Level measurement; Parallel algorithms; Shape; Sociology; Statistics; Three-dimensional displays; Diffeomorphisms; HGM; LDDMM; Longitudinal Analysis; Vector Momentum;
Conference_Titel :
Biomedical Imaging (ISBI), 2014 IEEE 11th International Symposium on
Conference_Location :
Beijing
DOI :
10.1109/ISBI.2014.6867878
