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Shape Moments for Region-Based Active Contours

Shape Moments for Region-Based Active Contours. Peter Horvath, Avik Bhattacharya, Ian Jermyn, Josiane Zerubia and Zoltan Kato. Goal. Introduce shape prior into the Chan and Vese model. Improve performance in the presence of: Occlusion Cluttered background Noise. Overview.

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Shape Moments for Region-Based Active Contours

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  1. Shape Moments for Region-Based Active Contours Peter Horvath, Avik Bhattacharya, Ian Jermyn, Josiane Zerubia and Zoltan Kato SSIP 2005

  2. Goal • Introduce shape prior into the Chan and Vese model • Improve performance in the presence of: • Occlusion • Cluttered background • Noise SSIP 2005

  3. Overview • Region-based active contours • The Mumford-Shah model • The Chan and Vese model • Level-set function • Shape moments • Geometric moments • Legendre moments • Chebyshev moments • Segmentation with shape prior • Experimental results SSIP 2005

  4. Mumford-Shah model • D. Mumford, J. Shah in 1989 • General segmentation model • ΩR2, u0-given image, u-segmented image, C-contour 1 2 3 • Region similarity • Smoothness • Minimizes the contour length SSIP 2005

  5. Chan and Vese model I. • Intensity based segmentation • Piecewise constant Mumford-Shah energy functional (cartoon model) • Inside (c1) and outside (c2) regions • Active contours without edges [Chan and Vese, 1999] • Level set formulation of the above model • Energy minimization by gradient descent SSIP 2005

  6. Level-set method • S. Osher and J. Sethian in 1988 • Embed the contour into a higher dimensional space • Automatically handles the topological changes • (., t) level set function • Implicit contour ( = 0) • Contour is evolved implicitly by moving the surface  SSIP 2005

  7. Chan and Vese model II. • Level set segmentation model • Inside >0; outside <0 • H(.)-Heaviside step function • It is proved in [Chan & Vese, ‘99] that a minimizer of the problem exist SSIP 2005

  8. Overview • Region-based active contours • The Mumford-Shah model • The Chan and Vese model • Level-set function • Shape moments • Geometric moments • Legendre moments • Chebyshev moments • Segmentation with shape prior • Experimental results SSIP 2005

  9. Geometric shape moments • Introduced by M. K. Hu in 1962 • Normalized central moments (NCM) • Translation and scale invariant • (xc, yc) is the centre of mass (translation invariance) Area of the object (scale invariance) SSIP 2005

  10. Legendre moments • Provides a more detailed representation than normalized central moments: • Where Pp(x) are the Legendre polynomials • Orthogonal basis functions NCM is dominated by few moments while Legendere values are evenly distributed Shape NCM () Legendre () SSIP 2005

  11. Chebyshev moments • Ideal choice because discrete • Where, ρ(n, N) is the normalizing term, Tm(.) is the Chebyshev polynomial • Can be expressed in termof geometric moments Chebyshev polynomials: SSIP 2005

  12. Overview • Region-based active contours • The Mumford-Shah model • The Chan and Vese model • Level-set function • Shape moments • Geometric moments • Legendre moments • Chebyshev moments • Segmentation with shape prior • Experimental results SSIP 2005

  13. New energy function • We define our energy functional: • Where Eprior defined as the distance between the shape and the reference moments • pq shape moments SSIP 2005

  14. Overview • Region-based active contours • The Mumford-Shah model • The Chan and Vese model • Level-set function • Shape moments • Geometric moments • Legendre moments • Chebyshev moments • Segmentation with shape prior • Experimental results SSIP 2005

  15. Geometric results Legendre moments Reference object p, q ≤12 p, q ≤16 p, q ≤20 Chebyshev moments p, q ≤12 p, q ≤16 p, q ≤20 SSIP 2005

  16. Result on real image Original image Reference object Chan and Vese with shape prior Chan and Vese SSIP 2005

  17. Conclusions, future work • Legendre is faster • Chebyshev is slower but it’s discrete nature gives better representation • Future work: • Extend our model to Zernike moments • Develop segmentation methods using shape moments and Markov Random Fields SSIP 2005

  18. Thank you! • Acknowledgement: • IMAVIS EU project (IHP-MCHT99/5) • Balaton program • OTKA (T046805) SSIP 2005

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