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mage registration by model criteria

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Title: mage registration by model criteria


1
mage registration by model criteria
  • R. S. Schestowitz, C. J. Twining,
  • T. F. Cootes and C. J. Taylor

2
Overview
  • Non-rigid registration (NRR)
  • Registration and models
  • Experiments
  • Models as a similarity measure
  • Toward automatic appearance model construction
  • Results
  • Conclusions

3
Non-rigid Image Registration
  • Results in overlap of analogous structures.
  • Transforming (warping) images.
  • Evaluation using similarity measures.

4
NRR - Problems
  • Results are arbitrary (not unique).
  • Objective function defines goodness of a
    solution.
  • Many sets of warps provide equally good
    solutions.
  • The search method chosen affects the results.
  • Suffers from limitations in certain cases
  • Inter-subject registration with structural
    difference.
  • Registration of sets of images.

5
Registration and Models
  • Models of shape and appearance capture variation.
  • NRR closely-related to building combined models.
  • Given a registered image set
  • Correspondences are known.
  • A combined model can be built.
  • Method for finding unique dense correspondence
  • Find set of warps that lead to best model.
  • Best model defined by Minimum Description Length.
  • MDL approach developed for shapes.
  • Can be extended for combined models.

6
Model Complexity
  • We approximate MDL to gain speed.
  • Infer from covariance matrix of model.
  • We obtain .
  • This approximates the determinant
    .
  • avoids multiplication by 0.
  • are the n Eigen-values of the
    covariance matrix whose magnitude is greatest.
  • Log simplifies calculation.

7
Experiments - Data
  • To demonstrate feasibility, we registered 1-D
    data.
  • No difference in principle between 1- 2-, and
    3-D.
  • We Investigated bumps (half-ellipses) that vary
    in
  • Horizontal orientation
  • Width
  • Height
  • The correct solution is known.
  • Validation w.r.t. the correct solution.

8
Experiments - Optimisation
  • Optimisation of the model-based objective
    function
  • Carried out by applying clamped-plate splines.
  • Localised, random warps are applied
  • One image is transformed at a time.
  • Objective function is optimised w.r.t. warp
    magnitude.

9
Results of Registration
  • Before registration
  • After registration
    Objective function
  • Result approaches the solution defined by the
    model.

10
Resulting Models
  • The combined model captures variability.
  • Decomposes into 3 dimensions of variation.
  • Before registration At
    correspondence After registration

11
A Subset Approach
  • By stochastically choosing subsets
  • Optimisation becomes more robust.
  • Solution is reached more quickly.

12
Conclusions
  • Modelling need not be independent of
    registration.
  • Registration by models provides unique solutions.
  • Correspondence in sets is identified in the
    process.
  • Combined models are refined autonomously.
  • The process benefits from treating subsets.
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