Non-Rigid Registration - PowerPoint PPT Presentation

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Non-Rigid Registration

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Affine transformation: 12 DOF. Transformation. Additional DOF. Second order ... Non-rigid registration for local alignment. Next time. Affine-mapping technique ... – PowerPoint PPT presentation

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Title: Non-Rigid Registration


1
Non-Rigid Registration
2
Why Non-Rigid Registration
  • In many applications a rigid transformation is
    sufficient. (Brain)
  • Other applications
  • Intra-subject tissue deformation
  • Inter-subject anatomical variability across
    individuals
  • Fast-Moving area Non-rigid

3
Registration Framework
  • In terms of L.Brown.(1992)
  • Feature Space
  • Transformation
  • Similarity Measure
  • Search Strategy (Optimization)
  • Rigid vs. Non-rigid in the framework

4
Feature Space
  • Geometric landmarks
  • Points
  • Edges
  • Contours
  • Surfaces, etc.
  • Intensities
  • Raw pixel values
  1. 35
  2. 56

5
Transformation
6
Transformation
  • Rigid transformation
  • 3DOF (2D)
  • 6 DOF (3D)
  • Affine transformation
  • 12 DOF

7
Transformation
  • Additional DOF.
  • Second order polynomial-30 DOF
  • Higher order
  • third-60, fourth-105,fifth-168
  • Model only global shape changes

8
Transformation
  • For each pixel (voxel), one 2d(3d) vector to
    describe local deformation.
  • Parameters of non-rigid gtgt that of rigid

9
Similarity Measure
  • Point based
  • ---The distance between features, such as
    points,curves,or surfaces of corresponding
    anatomical structure.
  • --- Feature extraction.
  • Voxel based
  • ---Absolute Difference, Sum of squared
    differences, Cross correlation, or Mutual
    information

10
Search Strategy
  • Registration can be formulated as an optimization
    problem whose goal is to minimize an associated
    energy or cost function.
  • General form of cost function
  • C -CsimilarityCdeformation

11
Search Strategy
  • Powells direction set method
  • Downhill simplex method
  • Dynamic programming
  • Relaxation matching
  • Combined with
  • Multi-resolution techniques

12
Registration Scheme
13
Non-rigid Registration
  • Feature-based
  • Control Points TPS
  • Curve/Edge/Contour
  • Surface
  • Intensity-based
  • Elastic model
  • Viscous fluid model
  • Others

14
Thin-plate splines (TPS)
  • Come from Physics TPS has the property of
    minimizing the bending energy.

15
TPS (cont.)
  • Splines based on radial basis functions
  • Surface interpolation of scattered data

16
Description of the Approach
  1. Select the control points in the images.
  2. Calculate the coefficients for the TPS.
  3. Apply the TPS transformation on the whole image.

17
Synthetic Images
T2
T1
18
TPS-Results(1)
19
TPS-Results(2)
20
Rigid and non-rigid registration
  • Rigid Registration as pre-processing (global
    alignment)
  • Non-rigid registration for local alignment

21
Next time
  • Affine-mapping technique
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