Title :
Piecewise trilinear deformation of tomographic models
Author :
De Barros Melo, S.
Author_Institution :
Dept. de Matematica, UFPE-Recife
Abstract :
Introduces an iterative method that deforms brain models built from tomographic images. The deformation is used for normalization purposes: individual models are deformed to match the shape, orientation and internal morphology of a reference model. In this method, the individual and the reference models are each enclosed in a cube which is subdivided to form a rectangular grid. The vertices in the individual model´s grid are perturbed and the contents of each cell is then trilinearly mapped into a cube. The composite of all resulting cubes form the deformed model to be compared with the reference model. The perturbations on the vertices are generated by a simulated annealing optimization technique. To maximize the performance, the models are represented in a multi-resolution fashion and the method is parallelized
Keywords :
brain; computerised tomography; deformation; image morphing; image resolution; iterative methods; medical image processing; parallel processing; simulated annealing; brain models; cube; iterative method; multi-resolution representation; normalization; optimization technique; parallelization; performance maximization; piecewise trilinear deformation; rectangular grid vertex perturbation; reference model morphology; reference model orientation; reference model shape; simulated annealing; tomographic images; tomographic models; Biological system modeling; Biology computing; Data acquisition; Deformable models; Electrical capacitance tomography; Humans; Iterative methods; Morphology; Rain; Shape;
Conference_Titel :
Computer Graphics and Image Processing, 1999. Proceedings. XII Brazilian Symposium on
Conference_Location :
Campinas
Print_ISBN :
0-7695-0481-7
DOI :
10.1109/SIBGRA.1999.805716
