Title :
Building optimal statistical deformable surface models
Author :
Horkaew, P. ; Merrifield, R. ; Yang, G.Z.
Abstract :
This paper describes the creation of an optimal statistical deformable model from a set of surfaces whose topological realization is homeomorphic to a compact 2D manifold with boundary. The optimal parameterization of each shape is recursively refined by using hierarchical piecewise bilinear maps and tensor product B-spline representation of the surfaces. A criterion based on minimum description length was used to define the internal correspondence of the training data. The strength of the proposed method is demonstrated by deriving a concise statistical model of the left ventricle which has principal modes of variation that correspond to intrinsic cardiac motions. The extension of the technique to shapes with complex topology is also discussed.
Keywords :
biomechanics; cardiology; physiological models; splines (mathematics); statistical analysis; tensors; compact 2D manifold with boundary; hierarchical piecewise bilinear maps; homeomorphic; intrinsic cardiac motions; minimum description length; optimal parameterization; optimal statistical deformable surface models building; recursively refinement; tensor product B-spline representation; topological realization; training data; Biomedical imaging; Deformable models; Home computing; Image segmentation; Laboratories; Microwave integrated circuits; Shape; Spline; Surface morphology; Topology;
Conference_Titel :
Information Technology Applications in Biomedicine, 2003. 4th International IEEE EMBS Special Topic Conference on
Print_ISBN :
0-7803-7667-6
DOI :
10.1109/ITAB.2003.1222514
