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Linear Solution to Scale and Rotation Invariant Object Matching

Linear Solution to Scale and Rotation Invariant Object Matching. Hao Jiang and Stella X. Yu Computer Science Department Boston College. Problem. Template image and mesh. Target image. Matching. Target Mesh. Challenges. Template Image. Target Images. Challenges. Template Image.

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Linear Solution to Scale and Rotation Invariant Object Matching

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  1. Linear Solution to Scale and Rotation Invariant Object Matching Hao Jiang and Stella X. Yu Computer Science Department Boston College

  2. Problem Template image and mesh Target image Matching Target Mesh

  3. Challenges Template Image Target Images

  4. Challenges Template Image Target Images

  5. Some Related Methods :w • Hough Transform and RANSAC • Graph matching • Dynamic Programming • Max flow – min cut [Ishikawa 2000, Roy 98] • Greedy schemes (ICM [Besag 86], Relaxation Labeling [Rosenfeld 76]) • Back tracking with heuristics [Grimson 1988] • Graph Cuts [Boykov & Zabih 2001] • Belief Propagation [Pearl 88, Weiss 2001] • Convex approximation [Berg 2005, Jiang 2007, etc.]

  6. The Outline of the Proposed Method • A linear method to optimize the matching from template to target • The linear approximation is simplified so that its size is largely decoupled from the number of target candidate features points • Successive refinement for accurate matching

  7. The Optimization Problem Matching cost Pairwise consistency

  8. In Compact Matrix Form Matching cost Pairwise consistency We will turn the terms in circles to linear approximations

  9. The L1 Norm Linearization • It is well known that L1 norm is “linear” • By using two auxiliary matrices Y and Z, min |x| min (y + z) Subject to x = y - z y, z >= 0 | EMR – sEXT | 1’ne( Y + Z ) 12 subject to Y – Z = EMR – sEXT Y, Z >= 0 Consistency term

  10. Linearize the Scale Term All sites select the same scale

  11. Linearize Rotation Matrix In graphics:

  12. The Linear Optimization Target point estimation: T* = XT

  13. The Lower Convex Hull Property • Cost surfaces can be replaced by their lower convex hulls without changing the LP solution A cost “surface” for one point on the template The lower convex hull

  14. Removing Unnecessary Variables • Only the variablesthat correspond to the lower convex hull vertices need to be involved in the optimization matching cost matching cost # of original target candidates: 2500 # of effective target candidates: 19

  15. Complexity of the LP 10,000 target candidates 1 million target candidates 28 effective target candidates 1034 effective target candidates The size of the LP is largely decoupled from the number of target candidates

  16. Successive Refinement

  17. Matching Objects in Real Images

  18. Result Videos

  19. Statistics

  20. Results Comparison

  21. Accuracy and Efficiency

  22. Experiments on Ground Truth Data The proposed method Other methods Error distributions for fish dataset

  23. Experiments on Ground Truth Data The proposed method Other methods Error distributions for random dot dataset

  24. Summary • A linear method to solve scale and rotation invariant matching problems accurately and efficiently • The proposed method is flexible and can be used to match images using different features • It is useful for many applications including object detection, tracking and activity recognition • Future Work • Multiple scale solution • More complex transformations • Articulated object matching

  25. The End

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