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Unsupervised Cardiac Image Segmentation via Multiswarm Active Contours with a Shape Prior
Author(s) -
Ivan CruzAceves,
Juan Gabriel AvinaCervantes,
Juan LópezHernández,
M. G. García-Hernández,
Mario-Alberto Ibarra-Manzano
Publication year - 2013
Publication title -
computational and mathematical methods in medicine
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.462
H-Index - 48
eISSN - 1748-6718
pISSN - 1748-670X
DOI - 10.1155/2013/909625
Subject(s) - segmentation , artificial intelligence , particle swarm optimization , computer science , computer vision , active contour model , image segmentation , human heart , scale space segmentation , pattern recognition (psychology) , active shape model , medical imaging , set (abstract data type) , machine learning , medicine , programming language , cardiology
This paper presents a new unsupervised image segmentation method based on particle swarm optimization and scaled active contours with shape prior. The proposed method uses particle swarm optimization over a polar coordinate system to perform the segmentation task, increasing the searching capability on medical images with respect to different interactive segmentation techniques. This method is used to segment the human heart and ventricular areas from datasets of computed tomography and magnetic resonance images, where the shape prior is acquired by cardiologists, and it is utilized as the initial active contour. Moreover, to assess the performance of the cardiac medical image segmentations obtained by the proposed method and by the interactive techniques regarding the regions delineated by experts, a set of validation metrics has been adopted. The experimental results are promising and suggest that the proposed method is capable of segmenting human heart and ventricular areas accurately, which can significantly help cardiologists in clinical decision support.

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