Computer vision approaches to medical image analysis : second international ECCV workshop, CVAMIA 2006, Graz, Austria, May 12, 2006 : revised papers / Reinhard R. Beichel, Milan Sonka (eds.).Material type: TextSeries: Serienbezeichnung | Lecture notes in computer science ; 4241.Publication details: Berlin ; New York : Springer, ©2006. Description: 1 online resource (xi, 262 pages) : illustrationsContent type: text Media type: computer Carrier type: online resourceISBN: 9783540462583; 3540462589; 3540462570; 9783540462576Subject(s): Diagnostic imaging -- Mathematics -- Congresses | Image processing -- Digital techniques -- Congresses | Computer vision -- Congresses | Imaging systems in medicine -- Congresses | Diagnostic Imaging -- methods | Image Processing, Computer-Assisted | Diagnostic imaging -- Mathematics | Image processing -- Digital techniques | Computer vision | Imaging systems in medicine | Informatique | Computer vision | Diagnostic imaging -- Mathematics | Image processing -- Digital techniques | Imaging systems in medicine | bioinformatics | computergrafie | computer graphics | gezondheid | health | beeldverwerking | image processing | machine vision | computerwetenschappen | computer sciences | kunstmatige intelligentie | artificial intelligence | informatica | informatics | patroonherkenning | pattern recognition | Information and Communication Technology (General) | Informatie- en communicatietechnologie (algemeen)Genre/Form: Congress. | Electronic books. | Conference papers and proceedings. Additional physical formats: Print version:: Computer vision approaches to medical image analysis.DDC classification: 616.07/54 LOC classification: RC78.7.D53 | W68 2006ebNLM classification: 2006 M-852 | WN 26.5Other classification: R445-532 Online resources: Click here to access online
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Clinical Applications -- Melanoma Recognition Using Representative and Discriminative Kernel Classifiers -- Detection of Connective Tissue Disorders from 3D Aortic MR Images Using Independent Component Analysis -- Comparing Ensembles of Learners: Detecting Prostate Cancer from High Resolution MRI -- Accurate Measurement of Cartilage Morphology Using a 3D Laser Scanner -- Image Registration -- Quantification of Growth and Motion Using Non-rigid Registration -- Image Registration Accuracy Estimation Without Ground Truth Using Bootstrap -- SIFT and Shape Context for Feature-Based Nonlinear Registration of Thoracic CT Images -- Consistent and Elastic Registration of Histological Sections Using Vector-Spline Regularization -- Image Segmentation and Analysis -- Comparative Analysis of Kernel Methods for Statistical Shape Learning -- Segmentation of Dynamic Emission Tomography Data in Projection Space -- A Framework for Unsupervised Segmentation of Multi-modal Medical Images -- Poster Session -- An Integrated Algorithm for MRI Brain Images Segmentation -- Spatial Intensity Correction of Fluorescent Confocal Laser Scanning Microscope Images -- Quasi-conformal Flat Representation of Triangulated Surfaces for Computerized Tomography -- Bony Structure Suppression in Chest Radiographs -- A Minimally-Interactive Watershed Algorithm Designed for Efficient CTA Bone Removal -- Automatic Reconstruction of Dendrite Morphology from Optical Section Stacks -- Modeling the Activity Pattern of the Constellation of Cardiac Chambers in Echocardiogram Videos -- A Study on the Influence of Image Dynamics and Noise on the JPEG 2000 Compression Performance for Medical Images -- Fast Segmentation of the Mitral Valve Leaflet in Echocardiography -- Three Dimensional Tissue Classifications in MR Brain Images -- 3-D Ultrasound Probe Calibration for Computer-Guided Diagnosis and Therapy.
Medical imaging and medical image analysis are developing rapidly. 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. This was the second time that a satellite workshop, solely devoted to medical image analysis issues, was held in conjunction with the European Conference on Computer Vision (ECCV), and we are optimistic that this will become a tradition at ECCV. We received 38 full-length paper submissions to the second Computer Vision Approaches to Medical Image Analysis (CVAMIA) Workshop, out of which 10 were accepted for oral and 11 for poster presentation after a rigorous peer-review process. In addition, the workshop included three invited talks. The?rst was given by Maryellen Giger from the University of Chicago, USA -- titled "Multi-Modality Breast CADx."