Computer Vision - ECCV 2000

6th European Conference on Computer Vision Dublin, Ireland, June 26 - July 1, 2000, Proceedings, Part II

David Vernon (Herausgeber)

Buch | Softcover
XXXVI, 882 Seiten
2000 | 2000
Springer Berlin (Verlag)
978-3-540-67686-7 (ISBN)

Lese- und Medienproben

Computer Vision - ECCV 2000 -
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The two-volume set LNCS 1842/1843 constitutes the refereed proceedings of the 6th European Conference on Computer Vision, ECCV 2000, held in Dublin, Ireland in June/July 2000. The 116 revised full papers presented were carefully selected from a total of 266 submissions. The two volumes offer topical sections on recognitions and modelling; stereoscopic vision; texture and shading; shape; structure from motion; image features; active, real-time, and robot vision; segmentation and grouping; vision systems engineering and evaluation; calibration; medical image understanding; and visual motion.

Recognition & Modelling I.- Partitioned Sampling, Articulated Objects, and Interface-Quality Hand Tracking.- Real-Time Tracking of Multiple Articulated Structures in Multiple Views.- Pedestrian Detection from a Moving Vehicle.- Vision-Based Guidance and Control of Robots in Projective Space.- Stereoscopic Vision.- A General Method for Unsupervised Segmentation of Images Using a Multiscale Approach.- Image Segmentation by Nonparametric Clustering Based on the Kolmogorov-Smirnov Distance.- Euclidean Group Invariant Computation of Stochastic Completion Fields Using Shiftable-Twistable Functions.- Recognition & Modelling / Stereoscopic Vision / Texture, Shading, & Colour.- Bootstrap Initialization of Nonparametric Texture Models for Tracking.- Quasi-Random Sampling for Condensation.- Tracking Discontinuous Motion Using Bayesian Inference.- Direction Control for an Active Docking Behaviour Based on the Rotational Component of Log-Polar Optic Flow.- The Construction of 3 Dimensional Models Using an Active Computer Vision System.- Significantly Different Textures: A Computational Model of Pre-attentive Texture Segmentation.- Calibrating Parameters of Cost Functionals.- Coupled Geodesic Active Regions for Image Segmentation: A Level Set Approach.- Level Lines as Global Minimizers of Energy Functionals in Image Segmentation.- A Probabilistic Interpretation of the Saliency Network.- Layer Extraction with a Bayesian Model of Shapes.- Model-Based Initialisation for Segmentation.- Statistical Foreground Modelling for Object Localisation.- Nautical Scene Segmentation Using Variable Size Image Windows and Feature Space Reclustering.- A Probabilistic Background Model for Tracking.- On the Performance Characterisation of Image Segmentation Algorithms: A Case Study.- Statistical Significance as an Aid to System Performance Evaluation.- New Algorithms for Controlling Active Contours Shape and Topology.- Motion Segmentation by Tracking Edge Information over Multiple Frames.- Data-Driven Extraction of Curved Intersection Lanemarks from Road Traffic Image Sequences.- Tracking and Characterization of Highly Deformable Cloud Structures.- Calibration.- A Unifying Theory for Central Panoramic Systems and Practical Implications.- Binocular Self-Alignment and Calibration from Planar Scenes.- The Rôle of Self-Calibration in Euclidean Reconstruction from Two Rotating and Zooming Cameras.- Hand-Eye Calibration from Image Derivatives.- Medical Image Understanding.- Multimodal Elastic Matching of Brain Images.- A Physically-Based Statistical Deformable Model for Brain Image Analysis.- Minimal Paths in 3D Images and Application to Virtual Endoscopy.- Calibration / Medical Image Understanding / Visual Motion.- Kruppa Equation Revisited: Its Renormalization and Degeneracy.- Registration with a Moving Zoom Lens Camera for Augmented Reality Applications.- Calibration of a Moving Camera Using a Planar Pattern: Optimal Computation, Reliability Evaluation, and Stabilization by Model Selection.- Multi-view Constraints between Collineations: Application to Self-Calibration from Unknown Planar Structures.- Stereo Autocalibration from One Plane.- Can We Calibrate a Camera Using an Image of a Flat,Textureless Lambertian Surface?.- Underwater Camera Calibration.- On Weighting and Choosing Constraints for Optimally Reconstructing the Geometry of Image Triplets.- Computation of the Mid-Sagittal Plane in 3D Images of the Brain.- Stochastic Tracking of 3D Human Figures Using 2D Image Motion.- Monocular Perception of Biological Motion - Clutter and Partial Occlusion.- 3-D Motion and Structure from 2-D Motion Causally Integrated over Time: Implementation.- Non-parametric Model for Background Subtraction.- Qualitative Spatiotemporal Analysis Using an Oriented Energy Representation.- Regularised Range Flow.- Visual Encoding of Tilt from Optic Flow: Psychophysics and Computational Modelling.- Visual Motion.- IMPSAC: Synthesis of Importance Sampling and Random Sample Consensus.- Egomotion Estimation Using Quadruples of Collinear Image Points.- Geometric Driven Optical Flow Estimation and Segmentation for 3D Reconstruction.- Camera Pose Estimation and Reconstruction from Image Profiles under Circular Motion.

Erscheint lt. Verlag 19.6.2000
Reihe/Serie Lecture Notes in Computer Science
Zusatzinfo XXXVI, 882 p.
Verlagsort Berlin
Sprache englisch
Maße 155 x 235 mm
Gewicht 1503 g
Themenwelt Informatik Grafik / Design Digitale Bildverarbeitung
Mathematik / Informatik Informatik Software Entwicklung
Informatik Theorie / Studium Künstliche Intelligenz / Robotik
Schlagworte 3-D Vision • computer vision • Hardcover, Softcover / Informatik, EDV/Informatik • HC/Informatik, EDV/Informatik • Image Processing • Maschinelles Sehen • Object recognition • pattern recognition • robot • Robot vision • Shading • Stereo • vision systems • visual motion • visual perception
ISBN-10 3-540-67686-4 / 3540676864
ISBN-13 978-3-540-67686-7 / 9783540676867
Zustand Neuware
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