Stephan Paukner :: syslog :: Entries from Wednesday, August 1. 2007

Wednesday, August 1. 2007

Continuation and time plan

I already got a little time panic, as I noticed that I wouldn’t make it within September. I’ll need the whole month of September, too. A problem is that Doris wanted to go on a two-week holiday. As she has to take a course anyway, we delayed it to the beginning of October. After that I only want to have to do cosmetic stuff, and no content anymore. I want to have it printed and handed in by the mid of October. And already at the mid or the end of November, there should be the Master exam. I want to be finished by my 30th birthday. This. Must. Work. I can’t afford needing more time, as January 2008 is the last possibility, otherwise I’d have to pay €6,000 back.

On the content: I looked at multi-window Gabor frames, and M. Dörfler’s PhD thesis is a good source. Maybe I can apply her results 1:1 to images, as natural images also dominate in the lower frequencies. The lower frequencies are “area-producing”, already determining the image to a very high degree. Therefore small windows are needed densely in the lower frequency area, resulting in a dense covering here, incorporating many different orientations, yielding only a rough coverage of the image space. The higher frequencies are “contrast-producing” or “border-producing”. Frequency coverage doesn’t have to be that dense here, the exact frequencies are not that interesting, but their location is important. So, a multi-window Gabor system could be of similar type in 2D as it had been taken for 1D music signals by Dörfler.

But multi-window systems shall appear rather late in my thesis. First there are a lot more other things to mention. I made a rough table of contents, giving me a good lead:

Gabor Frames in $\ell^2(\Zst)$ as Section 2.3
Chapter 3: Finite-dimensional discrete Gabor Analysis

TF-matrices, $\Cst^L$ stuff, frames in $\Cst^L$
Gabor matrix
GA on finite groups and general lattices
Dual atom on general sampling sets

Chapter 4: Frequency behavior of digital images (nix Gabor, nix shifts)

Digital representation of images, RGB, matrix, values
Understanding 2D frequencies, tensor product of 1D freq
FFT2, low frequencies dominate, point to multi-windows

Chapter 5: Image representation by Gabor expansion (Gabor stuff, experiments)

Atoms can be separable or non-separable
2D PF-shifts of an atom, 4D position-freq space
Separable atom: 2D-dual is tensor of 1D-duals
Huge frame matrices, applying TF-matrices to image matrices for sep-atoms, proof
Separable atom, separable lattice, separable dual
Separable atom, non-separable lattices (1 dim only, both dims), dual
Non-separable atom, isomorphism 1D-2D, various lattices, dual

Unassigned

Multi-window Gabor frames, similar to music signals
Biological vision

Chapters 3 and 4 should be possible within August, and the rest will be in September.

It is currently completely open if there really will be some “real world” applications of GA to image processing, like serious deblurring, denoising or compression. I’d have to compare it to existing methods, actually. Currently I only plan to compare the various duals and do some thresholding of the Gabor coefficients. If there really will be some multi-window stuff, then maybe only for separable atoms, as I don’t know how I could check the frame quality otherwise.

Posted by Stephan Paukner in Master's Thesis at 21:52 | Comments (0) | Trackbacks (0)

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