T. Sørensen, K. O. Noe, Christian P. V. Christoffersen, Martin Kristiansen, K. Mouridsen, O. Østerby, L. Brix
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Active contours in optical flow fields for image sequence segmentation
Using variational calculus we develop an active contour model to segment an object across a number of image frames in the presence of an optical flow field. We define an energy functional that is locally minimized when the object is tracked across the entire image stack. Unlike classical snakes, image forces and regularization terms are integrated over the full set of images in the proposed model. This results in a new formulation of active contours. The method is demonstrated by segmenting the ascending aorta in a phase-contrast cine MRI dataset. Techniques to compute the required optical flow field and a “one-click” contour initialization step are suggested for this particular modality.
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