Computer Vision and Mathematical Methods in Medical and Biomedical Image Analysis de Milan Sonka

Computer Vision and Mathematical Methods in Medical and Biomedical Image Analysis: ECCV 2004 Workshops CVAMIA and MMBIA Prague, Czech Republic, May 15, 2004, Revised Selected Papers: Lecture Notes in Computer Science, cartea 3117

Milan Sonka

Ioannis A. Kakadiaris

Jan Kybic

en Limba Engleză Paperback – 20 sep 2004

Medical imaging and medical image analysisare rapidly developing. While m- ical imaging has already become a standard of modern medical care, medical image analysis is still mostly performed visually and qualitatively. The ev- increasing volume of acquired data makes it impossible to utilize them in full. Equally important, the visual approaches to medical image analysis are known to su?er from a lack of reproducibility. A signi?cant researche?ort is devoted to developing algorithms for processing the wealth of data available and extracting the relevant information in a computerized and quantitative fashion. Medical imaging and image analysis are interdisciplinary areas combining electrical, computer, and biomedical engineering; computer science; mathem- ics; physics; statistics; biology; medicine; and other ?elds. Medical imaging and computer vision, interestingly enough, have developed and continue developing somewhat independently. Nevertheless, bringing them together promises to b- e?t both of these ?elds. We were enthusiastic when the organizers of the 2004 European Conference on Computer Vision (ECCV) allowed us to organize a satellite workshop devoted to medical image analysis.

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Cuprins

Acquisition Techniques.- Ultrasound Stimulated Vibro-acoustography.- CT from an Unmodified Standard Fluoroscopy Machine Using a Non-reproducible Path.- Three-Dimensional Object Reconstruction from Compton Scattered Gamma-Ray Data.- Reconstruction.- Cone-Beam Image Reconstruction by Moving Frames.- AQUATICS Reconstruction Software: The Design of a Diagnostic Tool Based on Computer Vision Algorithms.- Towards Automatic Selection of the Regularization Parameters in Emission Tomgraphy by Fourier Synthesis.- Mathematical Methods.- Extraction of Myocardial Contractility Patterns from Short-Axes MR Images Using Independent Component Analysis.- Principal Geodesic Analysis on Symmetric Spaces: Statistics of Diffusion Tensors.- Symmetric Geodesic Shape Averaging and Shape Interpolation.- Smoothing Impulsive Noise Using Nonlinear Diffusion Filtering.- Level Set and Region Based Surface Propagation for Diffusion Tensor MRI Segmentation.- The Beltrami Flow over Triangulated Manifolds.- Hierarchical Analysis of Low-Contrast Temporal Images with Linear Scale Space.- Medical Image Segmentation.- Segmentation of Medical Images with a Shape and Motion Model: A Bayesian Perspective.- A Multi-scale Geometric Flow for Segmenting Vasculature in MRI.- A 2D Fourier Approach to Deformable Model Segmentation of 3D Medical Images.- Automatic Rib Segmentation in CT Data.- Efficient Initialization for Constrained Active Surfaces, Applications in 3D Medical Images.- An Information Fusion Method for the Automatic Delineation of the Bone-Soft Tissues Interface in Ultrasound Images.- Multi-label Image Segmentation for Medical Applications Based on Graph-Theoretic Electrical Potentials.- Three-Dimensional Mass Reconstruction in Mammography.- Segmentation of Abdominal Aortic Aneurysms with a Non-parametric Appearance Model.- Probabilistic Spatial-Temporal Segmentation of Multiple Sclerosis Lesions.- Segmenting Cell Images: A Deterministic Relaxation Approach.- Registration.- TIGER – A New Model for Spatio-temporal Realignment of FMRI Data.- Robust Registration of 3-D Ultrasound Images Based on Gabor Filter and Mean-Shift Method.- Deformable Image Registration by Adaptive Gaussian Forces.- Applications.- Statistical Imaging for Modeling and Identification of Bacterial Types.- Assessment of Intrathoracic Airway Trees: Methods and In Vivo Validation.- Computer-Aided Measurement of Solid Breast Tumor Features on Ultrasound Images.- Can a Continuity Heuristic Be Used to Resolve the Inclination Ambiguity of Polarized Light Imaging?.- Applications of Image Registration in Human Genome Research.- Fast Marching 3D Reconstruction of Interphase Chromosomes.- Robust Extraction of the Optic Nerve Head in Optical Coherence Tomography.- Scale-Space Diagnostic Criterion for Microscopic Image Analysis.- Image Registration Neural System for the Analysis of Fundus Topology.- Robust Identification of Object Elasticity.