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Deblurring with a scale-space approach. Gaussian degradation occurs in a large number of situations. the point-spread-function of the human lens e.g.

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Presentation on theme: "Deblurring with a scale-space approach. Gaussian degradation occurs in a large number of situations. the point-spread-function of the human lens e.g."— Presentation transcript:

1 Deblurring with a scale-space approach

2 Gaussian degradation occurs in a large number of situations. the point-spread-function of the human lens e.g. has a close to Gaussian shape (for a 3 mm pupil  is about 2 minutes of arc); the atmospheric turbulence blurs astronomical images in a Gaussian fashion; the thickness profile of thin slices made by modern spiral-CT scanners is about Gaussian, leading to Gaussian blur in a multiplanar reconstructed image such as in the sagittal or coronal plane.

3 There is an analytical solution for the inversion of Gaussian blur. But the reconstruction can never be exact. Many practical solutions have been proposed, involving a variety of enhancing filters (e.g. high-pass or Wiener) and Fourier methods. Analytical methods have been proposed by Kimia, Hummel and Zucker [Kimia1986, Kimia1993, Hummel1987] as well as Reti [Reti 1995a]. They replaced the Gaussian blur kernel by a highly structured Toeplitz matrix and deblurred the image by the analytical inverse of this matrix. Martens deblurred images with polynomial transforms [Martens 1990].

4 Can we inverse the diffusion equation? Recall that scale-space is infinitely differentiable due to the regularization properties of the observation process. We can construct a Taylor expansion of the scale-space in any direction, including the negative scale direction.

5 Taylor expansion ‘downwards’: The derivatives with respect to s (scale) can be expressed in spatial derivatives due to the diffusion equation

6 It is well-known that subtraction of the Laplacian sharpens the image. It is the first order approximation of the deblurring process.

7 We must account for the scale of the differential operators:

8 Deblurring to 4 th, 8 th, 16 th and 32 nd order: There are 560 derivative terms in the 32 nd order expression!

9 Rounding the data to 8 bit gives less ‘Taylor length’ Deblurring to 4 th, 8 th, 16 th and 32 nd order:

10 Noise  =5 order = 4 order = 8 order = 16 Additive noise:

11 Shot noise order = 4 order = 8 order = 16 Holes in the image:

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