Title :
Modular linear iconic matching using higher order graphs
Author :
Fecamp, Vivien ; Sotiras, Aristeidis ; Paragios, Nikos
Author_Institution :
Centre de Vision Numrique, Ecole Centrale Paris, Chatenay-Malabry, France
Abstract :
We introduce a novel approach to tackle iconic linear mapping between two images. We adopt a grid-based parametrization of the deformation field that is encoded by a higher order graphical model. In the proposed formulation, latent variables correspond to local grid displacement vectors and unary potentials locally quantify the level of alignment between the two images. Higher order constraints that involve third and forth order potentials, enforce the linearity of the resulting transformation. The resulting formulation is modular with respect to the image metric used to evaluate the correctness of mapping as well as with respect to the nature of the linear transformation (rigid, similarity, or affine). Inference on this graph is performed through dual decomposition. Comparison with classic algorithms demonstrates the potential of our approach.
Keywords :
graph theory; image matching; image registration; medical image processing; deformation field grid based parametrization; forth order potentials; higher order constraints; higher order graphical model; higher order graphs; iconic linear mapping; image alignment; local grid displacement vectors; modular linear iconic matching; third order potentials; transformation linearity; unary potentials; Biomedical imaging; Image registration; Image resolution; Measurement; Optimization; Software algorithms; Three-dimensional displays;
Conference_Titel :
Biomedical Imaging (ISBI), 2015 IEEE 12th International Symposium on
Conference_Location :
New York, NY
DOI :
10.1109/ISBI.2015.7164063
