Changjiang Yang

Department of Computer Science
University of Maryland
College Park, MD 20742

Lab Phone: (301)405-8366
Cell Phone: (410)299-9081
Fax:(301)314-9658
Email:  (my last name)cj@cs.u m d.edu
Web: http://www.cs.umd.edu/~yangcj

Research Interests

Computer Vision, Pattern Recognition, Machine Learning, and Scientific Computing.

My  primary  focus  has  been  on:  efficient algorithms for
large-scale problems, real-time object tracking, robust similarity
measures, camera calibration, autonomous navigation systems, and
probabilistic analysis of Hough transform..

Education

1. Ph.D. in Computer Science
                                      (expected) May 2005
   University of Maryland, College Park, MD 20742
   Thesis: Efficient Algorithms with Applications in Vision and Learning
   Advisors: Professor Larry Davis and Professor Ramani Duraiswami

2. M.S. in  Pattern Recognition and Artificial Intelligence
                                           June 1999
Institute of Automation, Chinese Academy of Sciences, Beijing, China
Thesis: Camera Calibration and Self-Calibration

3. B.E. in Automatic Control
                                           June 1996
University of Science and Technology of China, Hefei, China
Thesis: Investigations on Some Important Aspects of the Hough Transform.
GPA ranks second in the Department of Automation

Research Experience
1. University of Maryland, College Park, Maryland
August 2000 - Present  Research Assistant,
Computer Vision Laboratory

Efficient algorithms for computer vision and machine learning.
Visual tracking and surveillance.
Study on robust and efficient similarity measures.
Image registration, superresolution and regularization.

2. Michigan State University, East Lansing, Michigan
August 1999 - August 2000
Research Assistant, Pattern Recognition and Image Processing Laboratory
Automatic detection of image orientation.
Visual motion based behavior learning using hierarchical discriminant
regression.
Develop microchip drivers of robot navigation system.

3. National Laboratory of Pattern Recognition, Beijing, China
January 1996 - August 1999
Research Assistant
Camera calibration and self-calibration, 3D Reconstruction.
Probabilistic analysis of Hough transform for geometric primitive
detection.
Active vision based mobile robot navigation system.

Publications

Refereed Journal Publications
1. A. Vailaya, H. Zhang, C. Yang, Feng-I Liu and A.K. Jain. Automatic  Image
  Orientation Detection, IEEE Trans. on Image Processing. 11(7): 746 - 755,
  July 2002.
2. C. Yang and J. Weng. Vision-based Behavior  Learning  Using  Hierarchical
  Discriminant Regression. Pattern Recognition  Letters,  23:  1031-  1038,
  2002.
3. C. Yang, F. Sun and Z. Hu. Self-Calibration  of  Rotating  Cameras  Using
  Conic Correspondences. Acta Automatica Sinica, 27(3): 310 - 317, 2001 (in
  Chinese).
4. C. Yang, F. Sun  and  Z.  Hu.  Planar  Conic  Based  Camera  Calibration.
  Chinese Journal of Computers, 23(5): 541 - 547, 2000 (in Chinese).
5. Z. Hu, C. Yang, Y. Yang, S. Ma. An Inherent Probabilistic Aspect  of  the
  Hough Transform. Journal of Computer Science and Technology, 14(1): 44  -
  48, 1999.
6. Z. Hu,  C.  Yang,  W.  Wang  and  S.  Ma.  The  Optimal  Design  of  Line
  Parameterization. Acta Automatica Sinica, 24(3): 307 - 314, May 1998  (in
  Chinese).

Refereed Conference Publications
1. C. Yang, R. Duraiswami and L. Davis. Efficient  Spatial-Feature  Tracking
  via the Mean-Shift and a New Similarity Measure. Accepted to CVPR'2005.
2. C. Yang, R. Duraiswami and L. Davis. Efficient Kernel Machines Using  the
  Improved  Fast  Gauss  Transform.  In  Advances  in  Neural   Information
  Processing Systems 16, 2004. (Spotlight, 8% acceptance rate)
3. C. Yang, R. Duraiswami, N. Gumerov and  L.  Davis.  Improved  Fast  Gauss
  Transform and Efficient Kernel Density Estimation, In IEEE  International
  Conference on Computer Vision, pages 464-471, 2003.
4. C. Yang, R. Duraiswami, D. DeMenthon and L.  Davis.  Mean-Shift  Analysis
  Using Quasi-Newton Methods. In IEEE  International  Conference  on  Image
  Processing, pages 447-450, vol.3, 2003.
5.  C.  Yang,  R.  Duraiswami  and  L.  Davis.  Near-Optimal  Regularization
  Parameters  for  Applications  in  Computer  Vision.   In   International
  Conference on Pattern Recognition, 569- 573, vol.2, 2002.
6.  C.  Yang,  R.   Duraiswami   and   L.   Davis.   Superresolution   Using
  Preconditioned  Conjugate  Gradient   Method.   In   IEEE   International
  Conference on Image and Graphics, 2002.
7. C. Yang and Z. Hu.  Conic  Based  Camera  Calibration.  In  International
  Conference on Pattern Recognition, pages 1555-1558, vol.1, 2000.
8. J. Weng, W.S. Hwang, Y. Zhang,  C.  Yang,  and  R.  Smith.  Developmental
  humanoids: humanoids that develop  skills  automatically.  In  Proc.  The
  First IEEE-RAS International Conference on Humanoid Robots,  Boston,  MA,
  September 7-8, 2000.
8. C. Yang and Z. Hu. An  Intrinsic  Parameters  Self-calibration  Technique
  for  Active  Vision  System.  In  International  Conference  on   Pattern
  Recognition, pages 67-69, vol.1, 1998 (Oral presentation).
10. C. Yang and X. Meng and Z. Hu. Energy Based Randomized  Hough  Transform.
  In International Conference on Signal Processing, pages 1117-1120, vol.2,
  1998.
11. Z. Hu, W. Wang, C. Yang and S. Ma. A Framework for  the  Design  of  New
  Line Parameterizations. In International Conference on Signal Processing,
  pages 863-866, vol.2, 1996.

Technical Reports and Other Publications
1. C. Yang, R. Duraiswami, and L. Davis. Mean shift tracking under the general
   motion models. Submitted to ICCV, 2005.
2. C. Yang, R. Duraiswami, and L. Davis. Fast multiple object tracking via a
   hierarchical particle filter. Submitted to ICCV, 2005.
3. B. Han, C. Yang, R. Duraiswami, and L. Davis. Bayesian filtering and integral
   image for visual tracking. Invited to special session of Real-Time Object
   Tracking: Algorithms and Evaluation in Workshop on Image Analysis for Multimedia
   Interactive Services (WIAMIS), Montreux, Switzerland, 2005.
4. C. Yang, R. Duraiswami, A. Elgammal, and L. Davis. On-line kernel-based tracking
   in joint feature-spatial spaces. In Proc. IEEE Conf. Comp. Vision Pattern Recognition,
   Washington, DC, 2004 (DEMO).
5. C. Yang, R. Duraiswami, A. Elgammal, and L. Davis. Real-time kernel-based tracking
   in joint feature-spatial spaces. Technical Report CS-TR-4567, Dept. of Computer Science,
   University of Maryland, College Park, MD, 2004.
6. C. Yang, R. Duraiswami, and N. Gumerov. Improved fast Gauss transform. Technical
   Report CS-TR-4495, Dept. of Computer Science, University of Maryland, College Park, MD,
   also submitted SIAM Sci. Comput. for publication, 2003.

Software Package
C. Yang, R. Duraiswami,  N.  Gumerov  and  L.  Davis.  Fast  Improved  Gauss
Transform Evaluation Engine (FIG TREE) version 1.0.  University of  Maryland
Invention Disclosure IS-2004-051, 2004.

Demonstration
C. Yang, R. Duraiswami, A. Elgammal and L. Davis. On-Line Kernel-Based Tracking
in Joint Feature-Spatial Spaces. IEEE Computer Society Conference on Computer
Vision and Pattern Recognition, 2004.

Talks and Lectures

1. 03/30/2005, Fast Kernel-Based Image Registration and Molecular Docking, Computer-Aided
   Drug Design Center, School of Pharmacy, University of Maryland, Baltimore, MD.
2. 03/03/2005, Fast Kernel-Based Methods with Applications to Visual Tracking and Learning,
   Computational Interaction and Robotics Group, the Johns Hopkins University, Baltimore,
   MD.
3. 12/17/2004, NIPS 2004 Workshop: Fast N-Body Learning, Panel Discussion, Canada.
4. 12/10/2004, Efficient Kernel Machines for Learning via the Fast Gauss Transform, Center
   for Automation Research (CfAR) seminar, University of Maryland, College Park.
5. 10/11/2004, Fast Gauss Transform, Guest lecture for graduate course CMSC878R: Fast Multipole
   Methods: Fundamentals and Applications, University of Maryland, College Park.
6. 09/26/2003, An Improved Fast Gauss Transform and Applications to Kernel Methods. Center
   for Automation Research (CfAR) seminar, University of Maryland, College Park.
7. 05/10/2002, Normalized Cuts and Image Segmentation: Review and Extensions. Center for
   Automation Research (CfAR) seminar, University of Maryland, College Park.
8. 02/02/2001, Review of Literature on Super-Resolution and Mosaicking. Center for Automation
   Research (CfAR) seminar, University of Maryland, College Park (with Ali Zandifar).

Programming Skills
Programming Languages: C/C++, Java, FORTRAN, Basic, Matlab, MCS Assembly.
Programming SDK: MS DirectX, Intel Streaming SIMD Extensions, Intel MKL.
Vision and Graphics Libraries: OpenGL, OpenCV, MS VisSDK.
Operating systems: Windows 2000/XP, Solaris, Linux.

Hardware Skills
Embedded system development, Microchip programming, PCB design,
RS232 communication programming. Robot navigation system development.


Honors and Awards
1. Computer Science Department Fellowship, University of Maryland, College
  Park, 2000 - 2002.
2. President's Award, Chinese Academy of Sciences, 1999.
3. Hua Wei Award, Chinese Academy of Sciences, 1998.
4. Tung Chee Hwa Orient Award, Chinese Academy of Sciences, 1997.
5. Legend Award, University of Science and Technology of China, 1994.

Professional Affiliations
Member of IEEE, SIAM, AMS, ASA, AAAS.

References
1.  Prof. Larry S. Davis, Chair of the Computer Science Department
    Department of Computer Science, University of Maryland, College Park, MD 20742
   (301) 405-2662, lsd@cs.umd.edu, http://cvl.umiacs.umd.edu/users/lsd

2.  Prof. Ramani Duraiswami, Director of the Perceptual Interfaces and
   Reality Laboratory
   Department of Computer Science, University of Maryland, College Park, MD 20742
   (301) 405-6710, ramani@umiacs.umd.edu, http://www.umiacs.umd.edu/~ramani

3.  Prof. Dianne P. O'Leary,
   Department of Computer Science, University of Maryland, College Park, MD 20742
   (301) 405-2678, oleary@cs.umd.edu, http://www.cs.umd.edu/~oleary

4. Prof. David Jacobs
   Department of Computer Science, University of Maryland, College Park, MD 20742
   (301)405-0679, djacobs@cs.umd.edu, http://www.cs.umd.edu/~djacobs