MRF agent based segmentation: Application to MRI brain scansReportar como inadecuado




MRF agent based segmentation: Application to MRI brain scans - Descarga este documento en PDF. Documentación en PDF para descargar gratis. Disponible también para leer online.

* Corresponding author 1 GIN - Grenoble Institut des Neurosciences 2 MISTIS - Modelling and Inference of Complex and Structured Stochastic Systems Inria Grenoble - Rhône-Alpes, LJK - Laboratoire Jean Kuntzmann, INPG - Institut National Polytechnique de Grenoble 3 LIG Laboratoire d-Informatique de Grenoble - ADELE LIG - Laboratoire d-Informatique de Grenoble

Abstract : The Markov Random Field MRF probabilistic framework is classically introduced for a robust segmentation of Magnetic Resonance Imaging MRI brain scans. Most MRF approaches handle tissues segmentation via global model estimation. Structure segmentation is then carried out as a separate task. We propose in this paper to consider MRF segmentation of tissues and structures as two local and cooperative procedures immersed in a multiagent framework. Tissue segmentation is performed by partitionning the volume in subvolumes where agents estimate local MRF models in cooperation with their neighbours to ensure consistency of local models. These models better reflect local intensity distributions. Structure segmentation is performed via dynamically localized agents that integrate anatomical spatial constraints provided by an a priori fuzzy description of brain anatomy. Structure segmentation is not reduced to a postprocessing step: rather, structure agents cooperate with tissue agents to render models gradually more accurate. We report several experiments that illustrate the working of our multiagent framework. The evaluation was performed using both phantoms and real 3T brain scans and showed a robustness to nonuniformity and noise together with a low computational time. This MRF agent based approach appears as a very promising new tool for complex image segmentation.





Autor: Benoit Scherrer - Dojat Michel - Florence Forbes - Catherine Garbay -

Fuente: https://hal.archives-ouvertes.fr/



DESCARGAR PDF




Documentos relacionados