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Applications of Invariance in Computer Vision 1993: Ponta Delgada, Azores, Portugal
- Joseph L. Mundy, Andrew Zisserman, David A. Forsyth:
Applications of Invariance in Computer Vision, Second Joint European - US Workshop, Ponta Delgada, Azores, Portugal, October 9-14, 1993, Proceedings. Lecture Notes in Computer Science 825, Springer 1994, ISBN 3-540-58240-1 - Joseph L. Mundy, Andrew Zisserman, David A. Forsyth:
Introduction and Chapter Summary. 3-8
Foundations
- Olivier D. Faugeras:
Cartan's Moving Frame Method and Its Application to the Geometry and Evolution of Curves in the Euclidean, Affine and Projective Planes. 11-46 - Eamon B. Barrett, Gregory Gheen, Paul M. Payton:
Representation of Three-Dimensional Object Structure as Cross-Ratios of Determinants of Stereo Image Points. 47-68 - Andrew Zisserman, Stephen J. Maybank:
A Case Against Epipolar Geometry. 69-88 - Joseph L. Mundy, Andrew Zisserman:
Repeated Structures: Image Correspondence Constraints and 3D Structure Recovery. 89-106 - Patrick Gros:
How to Use the Cross Ratio to Compute Projective Invariants from Two Images. 107-126 - Amnon Shashua:
On Geomatric and Algebraic Aspects of 3D Affine and Projective Structures from Perspective 2D Views. 127-143 - Stefan Carlsson:
The Dou8ble Algebra: An Effective Tool for Computing Invariants in Computer Vision. 145-164 - Luc Van Gool, Theo Moons, Marc Van Diest, Eric J. Pauwels:
Matching Perspective Views of Parallel Plane Structures. 165-184 - Isaac Weiss:
Invariants for Recovering Shape from Shading. 185-198 - Kalle Åström
:
Fundamental Difficulties with Projective Normalization of Planar Curves. 199-214 - Alessandro Verri, Claudio Uras:
Invariant Size Functions. 215-234
Recovery
- Richard I. Hartley:
Euclidean Reconstruction from Uncalibrated Views. 237-256 - Roger Mohr, Boubakeur Boufama, Pascal Brand:
Accurate Projective Reconstruction. 257-276 - Théodore Papadopoulo, Olivier D. Faugeras:
Applications of Motion Field of Curves. 277-296 - Theo Moons, Luc Van Gool, Marc Van Diest, Eric J. Pauwels:
Affine Reconstruction from Perspective Image Pairs Obtained by a Translating Camera. 297-316 - Mourad Zerroug, Ramakant Nevatia:
Using Invariance and Quasi-Invariance for the Segmentation and Recovery of Curved Objects. 317-340 - David A. Forsyth, Charlie Rothwell:
Representations of 3D Objects that Incorporate Surface Markings. 341-357 - Daphna Weinshall:
Model-based Invariant Functions and Their Use for Recognition. 359-380
Recognition
- Jianchang Mao, Anil K. Jain, Patrick J. Flynn:
Integration of Multiple Feature Groups and Multiple Views into a 3D Object Recognition System. 381-395 - Charlie Rothwell:
Hierarchical Object Description Using Invariants. 397-414 - David W. Jacobs:
Generalizing Invariants for 3-D to 2-D Matching. 415-434 - Ronen Basri:
Recognition by Combinations of Model Views: Alignment and Invariance. 435-450
Statistics
- Stephen J. Maybank:
Classification Based on the Cross Ratio. 453-472 - Peter Meer, Sudhir Ramakrishna, Reiner Lenz:
Correspondence of Coplanar Features Through p-Invariant Representations. 473-492 - Daniel Keren, Jayashree Subrahmonia, David B. Cooper:
Integrating Algebraic Curves and Surfaces, Algebraic Invariants and Bayesian Methods for 2D and 3D Object Recognition. 493-510
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