4th European Conference on Computer Vision Cambridge, UK, April 15-18, 1996 Proceedings, Volume I
edited by Bernard Buxton, Roberto Cipolla.
Berlin, Heidelberg
Springer-Verlag
1996
: v.: digital
Lecture notes in computer science, 1064.
Self-calibration from image triplets --; Parallax geometry of pairs of points for 3D scene analysis --; Euclidean 3D reconstruction from image sequences with variable focal lengths --; Eigenfaces vs. Fisherfaces: Recognition using class specific linear projection --; Rapid object indexing and recognition using enhanced geometric hashing --; Recognition of geons by parametric deformable contour models --; Automatic extraction of generic house roofs from high resolution aerial imagery --; Three dimensional object modeling via minimal surfaces --; Class based reconstruction techniques using singular apparent contours --; Reliable surface reconstruction from multiple range images --; Shape from appearance: A statistical approach to surface shape estimation --; Volumic segmentation using hierarchical representation and triangulated surface --; Oriented projective geometry for computer vision --; Fast computation of the fundamental matrix for an active stereo vision system --; On binocularly viewed occlusion junctions --; Understanding the shape properties of trihedral polyhedra --; Nonlinear scale-space from n-dimensional sieves --; Hierarchical curve reconstruction. Part I: Bifurcation analysis and recovery of smooth curves --; Texture feature coding method for classification of liver sonography --; Local appropriate scale in morphological scale-space --; Scale-space with casual time direction --; Tracing crease curves by solving a system of differential equations --; Flows under min/max curvature flow and mean curvature: Applications in image processing --; Decomposition of the Hough transform: Curve detection with efficient error propagation --; Image retrieval using scale-space matching --; Optimal surface smoothing as filter design --; Segmentation in dynamic image sequences by isolation of coherent wave profiles --; Texture segmentation using local energy in wavelet scale space --; Tracking medical 3D data with a deformable parametric model --; EigenTracking: Robust matching and tracking of articulated objects using a view-based representation --; Contour tracking by stochastic propagation of conditional density --; Learning dynamics of complex motions from image sequences --; Quantitative analysis of grouping processes --; Geometric saliency of curve correspondences and grouping of symmetric contours --; Computing contour closure --; Visual organization of illusory surfaces --; Uncalibrated relief reconstruction and model alignment from binocular disparities --; Dense depth map reconstruction: A minimization and regularization approach which preserves discontinuities --; Stereo without search --; Informative views and sequential recognition --; Unsupervised texture segmentation using selectionist relaxation --; Robust affine structure matching for 3D object recognition --; Automatic face recognition: What representation? --; Genetic search for structural matching --; Automatic selection of reference views for image-based scene representations --; Object recognition using subspace methods --; Detecting, localizing and grouping repeated scene elements from an image --; Image recognition with occlusions --; Silhouette-based object recognition with occlusion through curvature scale space --; A focused target segmentation paradigm --; Generalized image matching: Statistical learning of physically-based deformations --; Reasoning about occlusions during hypothesis verification --; Object recognition using multidimensional receptive field histograms --; Normalization by optimization --; Extracting curvilinear structures: A differential geometric approach --; Affine / photometric invariants for planar intensity patterns --; Image synthesis from a single example image --; Complexity of indexing: Efficient and learnable large database indexing --; Spatiotemporal representations for visual navigation --; Decoupling the 3D motion space by fixation --; Automatic singularity test for motion analysis by an information criterion --; Shape ambiguities in structure from motion.
The European Conference on Computer Vision (ECCV) has established itself as a major event in this exciting and very active field of research and development. These refereed two-volume proceedings include the 123 papers accepted for presentation at the 4th ECCV, held in Cambridge, UK, in April 1996; these papers were selected from a total of 328 submissions and together give a well-balanced reflection of the state of the art in computer vision. The papers in volume I are grouped in sections on structure from motion; recognition; geometry and stereo; texture and features; tracking; grouping and segmentation; stereo; and recognition, matching, and segmentation.