CSE 252C Fall 2003

DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING
UNIVERSITY OF CALIFORNIA, SAN DIEGO

CSE 252C: Selected Topics in Vision & Learning

Fall 2003

Students taking the course for four units should follow these project guidelines. Here is the feedback form for presentations.

Please read, reflect upon, and follow these presentation guidelines, kindly provided by Prof. Elkan. Immediately after your presentation, please email to sjb+cse252c@cs a copy of your slides. For ease of viewing, please make this copy be two slides per page in Adobe PDF.

The schedule of papers and presentations is below. Participants who have not chosen a paper yet should look at the list of suggested papers and contact the instructor.

If you want to change your presentation date, please arrange a swap with another student and notify the instructor at least two weeks in advance.

PEOPLE

MEETING SCHEDULE

date	presenter	paper title	author(s)	discussion board	slides
Sept. 25	organizational meeting
Sept. 30	Piotr Dollar	Learning flexible sprites in video layers	Jojic & Frey	here	zip
Oct. 2	Neil Alldrin	CONDENSATION -- conditional density propagation for visual tracking	Isard & Blake	here	pdf
Oct. 7	Matt Clothier	Superior Augmented-Reality Registration by Integrating Landmark Tracking and Magnetic Tracking	State et al.	here	pdf
Oct. 9	Peter Schwer	Recognition of human gaits	Bissacco et al.	here	ppt
Oct. 14	no meeting (ICCV'03)
Oct. 16	no meeting (ICCV'03)
Oct. 21	Silvio Savarese (Caltech)	Perception and Reconstruction of Specular Surfaces	Savarese and Perona	here
Oct. 23	Sunny Chow	Recognizing Action at a Distance / Detecting Pedestrians Using Patterns of Motion and Appearance	Efros et al. / Viola et al.	here	pdf
Oct. 28	cancelled due to fires
Oct. 30	Kristin Branson	BraMBLe: A Bayesian Multiple-Blob Tracker	Isard and MacCormick	here
Nov. 4	Manmohan Krishna	SCAAT: Incremental Tracking with Incomplete Information	Welch & Bishop	here	pdf
Nov. 6	Mei-Fang Huang	Background Layer Model for Object Tracking through Occlusion	Zhou & Tao	here	pdf
Nov. 11	no meeting (Veterans' Day)
Nov. 13	Michael McCracken	Recognizing and Tracking Human Action	Sullivan and Carlsson	here	ppt
Nov. 18	Shinko Cheng	Epitomic Analysis of Appearance and Shape	Jojic et al.	here	zip
Nov. 20	Diem Vu	Markerless Tracking using Planar Structures in the Scene / Calibration-Free Augmented Reality	Simon et al. / Kutulakos and Vallino	here	ppt movies
Nov. 25	Jing-han Shiau	3D Model Acquisition by Tracking 2D Wireframes	M. Brown, T. Drummond and R. Cipolla	here	ppt
Nov. 27	Thanksgiving holiday
Dec. 2	Sameer Agarwal	A Theory of Specular Surface Geometry	Oren and Nayar	here
Dec. 4	Project Presentations	5 minute presentations (reports and presentations)

Relevant deadlines for students doing projects: ECCV 2004 (Oct. 6), CVPR 2004 (Nov. 14-19).

OVERVIEW

CSE 252C fa03 is a graduate seminar devoted to recent research on pattern recognition and computer vision.

Students may enroll for one, two, or four units:

For one unit, a student will present one paper as described below.
For two units, a student will make two separate presentations. (This option may be eliminated.)
Four units will require two presentations and a project.

The class section id for CSE 252C is #476587.

The course is open to anyone who has already taken at least one graduate course in computer vision, artificial intelligence, or a closely related area. Appropriate courses at UCSD include CSE 250A, CSE 250B, CSE 252, CSE 254, CSE 253, CogSci 202, ECE 270A, and CSE 275A.

We will meet on Tuesdays and Thursdays from 11:00am-12:20pm in Solis 111. The first meeting will be on Thursday September 25, and the final meeting will be on Thursday December 4, 2003.

Possible topics include:

grouping & segmentation
structure from motion
dimensionality reduction
graph matching
spectral graph theory
support vector machines
kernel-based methods
regularization
expectation-maximization (EM) algorithm
multidimensional scaling
particle filtering
object tracking
object recognition
markov chain monte carlo (MCMC) methods
markov random fields
boosting

Students are encouraged to investigate both fundamental algorithmic issues as well as application areas such as biometrics, content based image retrieval, texture synthesis, motion capture, and image based rendering.

The instructor is Serge Belongie, Assistant Professor, AP&M room 4832.

Feel free to send email to sjb+cse252c@cs with any questions.

RELEVANT TEXTS

Computer Vision: A Modern Approach, Forsyth and Ponce
Introductory Techniques for 3-D Computer Vision Trucco and Verri
An Invitation to 3D Vision: From Images to Geometric Models, Y. Ma, S. Soatto, J. Kosecka, S. Sastry
Multiple View Geometry in Computer Vision by Hartley & Zisserman
The Geometry of Multiple Images by Faugeras, Luong, and Papadopoulo
Vision Science: Photons to Phenomenology by Stephen E. Palmer

LINKS

Computer Vision Reading Group at Weizmann

SEMINAR ORGANIZATION

Each class meeting of 80 minutes will be divided into two parts. First, a student will give a talk lasting about 60 minutes presenting a recent technical paper in detail. In questions during the talk, and in the final 20 minutes, all seminar participants will discuss the paper and the issues raised by it.

Some papers will be theoretical, and some will be applied. Two related applications papers may be discussed together. Theoretical papers will typically be presented and discussed alone, to ensure that mathematical and algorithmic questions are discussed in sufficient depth.

In the first week, we will make a schedule of papers and presentations for the whole quarter. With 10 participants, each student will make two separate presentations. The procedure for one presentation is as follows:

Two weeks in advance: Finish a draft of 25 to 30 slides that present clearly the work in the paper. Make an appointment with the instructor to discuss the draft slides. Email the slides to sjb+cse252c@cs.
Ten days in advance: Meet for 30 to 60 minutes to discuss improving the slides, and how to give a good presentation.
Day of presentation: Give a good presentation with confidence, enthusiasm, and clarity.
Immediately afterwards: Make changes to the slides suggested by the class discussion. Email the slides in PDF, two slides per page, to the instructor for publishing.

Presentations will be evaluated, in a friendly way but with high standards. Each presentation should be prepared using LaTeX or Powerpoint. You should copy equations, diagrams, charts, and tables as necessary from the paper for the presentation.

For each presentation, we will have a web-based discussion area. Each seminar participant is expected to contribute at least one message to the discussion, before the presentation. A message may ask an interesting question, point out a strength or weakness of the paper, or answer a question asked by someone else. Messages should be thoughtful!

Each student will also do one term project following specific guidelines. The project should be at the frontier of current research, and preferably closely inspired by one of the papers discussed in the class. Project reports will be evaluated using these grading criteria. There is a schedule for handing in a detailed project proposal, a draft project report, and then the final report.

The seminar will have no final exam. Final grades will be based 50% on presentations and participation in class and in the web-based discussions. The other 50% will be the project report.

Most recently updated on August 11, 2003 by Serge Belongie.