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CAP 6412 Advanced Computer Vision

CAP 6412 Advanced Computer Vision. January 10, 2005. General. Instructor: Dr. Alper Yilmaz Email: yilmaz@cs.ucf.edu Office: CSB 250 Objective: Review of the recent literature on Computer Vision Research Prepare student for graduate research on computer vision. Course. Office hours

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CAP 6412 Advanced Computer Vision

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  1. CAP 6412 Advanced Computer Vision January 10, 2005

  2. General • Instructor: Dr. Alper Yilmaz • Email: yilmaz@cs.ucf.edu • Office: CSB 250 • Objective: • Review of the recent literature on Computer Vision Research • Prepare student for graduate research on computer vision

  3. Course • Office hours • Monday 3.00pm-4.30pm • Wednesday 3.00pm-4.30pm • Grading • Reports 30% • Discussion and Attendance 20% • Assignments 10% • Projects (2 or 3) 30% • Presentations %10 • No Exams – No Final • Course prerequisites • CAP5415 Computer Vision • Linear Algebra • C, C++ or Matlab programming

  4. What will we be doing… • Every week or every class • One person presents the paper • Others write a report on the paper • Open discussion • There may be homework or project assignments (not every week)

  5. Leading Journals & Conferences • International Journal of Computer Vision (IJCV) • Pattern Analysis and Machine Intelligence (PAMI) • IEEE Computer Society Conference on Computer Vision and Pattern Recognition (CVPR) • International Conference on Computer Vision (ICCV) • European Conference on Computer Vision (ECCV)

  6. Tips on Reading Paper • First read once • Skip related work • Understand problem • Do not try to understand details • Read once more – understand details • Try to extract sub-problems • Think about how to implement them • Read as many • Do not use dictionary for maximum likelihood • Relate to other Vision Problems you are aware of • Understand how the sub-problems are combined together.

  7. List Of Papers To Be Covered(subject to change) • D. Tschumperle, R. Deriche, "Vector-Valued Image Regularization with PDE's: A Common Framework for Different Applications," CVPR 2003. • Y. Caspi and M. Irani, “Alignment of Non-Overlapping Sequences,” ICCV 2001 (Honorable Mention for 2001 Marr Prize) • Sivic, J. , Schaffalitzky, F. and Zisserman, A. “Object Level Grouping for Video Shots,” ECCV 2004 • E. Shechtman, Y. Caspi, and M. Irani, “Increasing Space-Time Resolution in Video,” ECCV, 2002. (best-paper award) • M. Irani, T. Hassner, and P. Anandan, “What Does the Scene Look Like from a Scene Point?,” ECCV 2002. • Haili Chui and Anand Rangarajan “A new algorithm for non-rigid point matching,” CVPR 2000. (best-paper award) • Y. Wexler, E. Shechtman, and M. Irani, “Space-Time Video Completion,” CVPR 2004 (best-poster award) • Lorenzo Torresani, Christoph Bregler , “Space-Time Tracking,” ECCV 2002

  8. List Of Papers To Be Covered(subject to change) • Lorenzo Torresani, Danny Yang, Gene Alexander, Christoph Bregler, “Tracking and Modelling Non-Rigid Objects with Rank Constraints,” CVPR 2001 (best student paper award) • Paul Viola, Michael J. Jones, and Daniel Snow, “Detecting Pedestrians using Patterns of Motion and Appearance,” ICCV 2003 (Marr prize) • Steven Seitz “The Space of All Stereo Images,” ICCV 2001 (Marr Prize) • Vladimir Kolmogorov and Ramin Zabih "Multi-camera Scene Reconstruction via Graph Cuts," ECCV 2002 (best paper award) • René Vidal and Yi Ma “A Unified Algebraic Approach to 2-D and 3-D Motion Segmentation,” ECCV 2004 (best paper award) • J. Xiao and T. Kanade “Non-Rigid Shape and Motion Recovery: Degenerate Deformations,” CVPR 2004

  9. Preparing Report • Summary • Problem solved • Approach • Strengths • Weaknesses • Your ideas (novel) on the same problem • Questions raised

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