1. Magic Camera Master’s Project Defense By Adam Meadows Project Committee: Dr. Eamonn Keogh Dr. Doug Tolbert

2. Roadmap Problem Motivation Background Stepping Through Magic Camera Results Conclusion Future Work

3. Problem To organize an image containing a collection of objects in front of a solid background

4. Motivation Incorporation into Digital Cameras –Sorting Tables –Insect Boards

5. Background Multidimensional Scaling (MDS) –Transforms a dissimilarity matrix into a collection of points in 2d (or 3d) space –Euclidean distances between the points reflect the given dissimilarity matrix –Similar objects are spaced close together, dissimilar objects are spaced farther apart

6. Stepping Through Magic Camera Identifying Objects Calculating Similarities Creating Resulting Image

7. Identifying Objects Convert to black and white image –Threshold: calculated automatically or specified Each connected comp treated as an object Each obj. cropped by B-box + 5 pixel border Edges of adjacent objects filtered out Objects rotated to “face” same direction

8. Filtering Adjacent Objects

9. Object Rotation Find major axis –Align with image’s major axis Find centroid –Rotate so centroid is at bottom/left of obj http://www.mathworks.com/access/helpdesk/help/toolbox/images/regionprops.html

10. Calculating Similarities Numerical representation of objects –Shape, color, texture Create dissimilarity matrix –Euclidean dist between each pair of objs

11. Shape Each object translated into a time series Dist from the center of obj to perimeter –Code provided by Dr. Keogh

12. Shape II

13. Color RGB values independently averaged –1000 random pixels chosen –Pixels not unique (if obj < 1000 pixels)

14. Texture Std deviation of 9 pixel neighborhood –averaged over 1,000 random pixels –Pixels not unique (if obj < 1,000 pixels)

15. Creating New Image Extracting Background Finding New Positions Fixing Overlaps

16. Extracting Background Use B&W image to id background Independently avg RGB values Create a new solid background image – same dimensions as original image

17. Finding New Positions Use MDS to get coordinates for objs –Using dissimilarity matrix Reverse Y values –Images are indexed top-down

18. Fixing Overlaps Start placing objects in given order –Randomly chosen if not specified If overlap detected –Move object min dist to rectify –In one direction (up, down, left, right)

19. Fixing Overlaps II Not

20. Results

23. Explanation

24. Explanation II

34. Conclusion Input image –Collection of objects on solid background Output image –Similar objects grouped close to each other –All objects “face” same direction

35. Future Work Develop color method –Try it with some real data (butterflies, etc.) Add combination of similarity measures –Shape & color, color & texture, etc. Add optional How-To –Display original image –User clicks an object –Line drawn to new location

36. Questions ?

37. Resources Slides available –http://www.cs.ucr.edu/~ameadows/msproject/slides.ppthttp://www.cs.ucr.edu/~ameadows/msproject/slides.ppt –http://www.cs.ucr.edu/~ameadows/msproject/slides-handout.pdfhttp://www.cs.ucr.edu/~ameadows/msproject/slides-handout.pdf Report available –http://www.cs.ucr.edu/~ameadows/msproject/report.pdfhttp://www.cs.ucr.edu/~ameadows/msproject/report.pdf Code available –http://www.cs.ucr.edu/~ameadows/msproject/magic_camera.ziphttp://www.cs.ucr.edu/~ameadows/msproject/magic_camera.zip