1. Computer Vision and Data Mining Research Projects Longin Jan Latecki Computer and Information Sciences Dept. Temple University latecki@temple.edu

2. Research Projects Object detection and recognition in images Improving ranking of search queries Motion and activity detection in videos Merging laser range maps of multiple robots

3. Object detection and recognition based on contour parts Often only parts of objects are visible in images We can detect and recognize such objects in edge images by performing contour grouping with shape similarity Edge imageDetected object

4. Algorithmic overview

6. Probabilistic approaches are needed to address noisy sensor information in robot perception. We use Rao-Blackwellized particle filtering that has been successfully applied to solve the robot mapping problem (SLAM). We use medial axis (skeleton) as our shape representation. Methodology Supported by DOE, NNSA, NA-22 NSF, Computer Vision Program

7. Sample evolution of particles Iteration 2Iteration 10 Iteration 14 Iteration 18

8. Experimental results Bottle model Swan model Bird model Reference models

12. Applications: Analysis of aerial and satellite images, in particular object and change detection Supported by LANL, RADIUS: Rapid Automated Decomposition of Images for Ubiquitous Sensing, PI: Lakshman Prasad, LANL

13. detected structures of interest at three different scales (in maroon). the original aerial image detected parts of contours

14. Videos are obtained from the Temple University Police video surveillance system. Object and activity detection results Motion and activity detection in videos Methodology: We use PCA to learn local background textures, and detect motion by analysis of texture trajectories. Many Video Surveillance Applications, e.g.,: Detection of moving objects and detection of abandon objects, e.g., around power plants

15. Human detection in infrared images and videos

16. original improved original improved query Improving ranking for similarity queries

17. Improving ranking in face profile retrieval Original retrieval Improved retrieval query Methodology: We use semi-supervised manifold learning to learn new distances in the manifold spanned by the training data set. Further applications: This methods makes it possible to improve ranking of any queries from images through text to concepts.

18. Prior based on motion model Our motion model is based on structure registration process between local maps which results in multi-modal prior. Prior in odometry based motion model Prior in our structure registration based motion model Merging maps of multiple robots

19. Experimental results Dataset: NIST Maze data set Sample individual local maps Merged global map