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Merge pull request #12046 from VladKarpushin:tutorial-using-out-of-focus-deblur-filter
Alexander Alekhin
6 years ago
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Out-of-focus Deblur Filter {#tutorial_out_of_focus_deblur_filter} |
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========================== |
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Goal |
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---- |
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In this tutorial you will learn: |
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- what is a degradation image model |
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- what is PSF of out-of-focus image |
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- how to restore a blurred image |
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- what is Wiener filter |
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Theory |
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------ |
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@note The explanation is based on the books @cite gonzalez and @cite gruzman. Also, you can refer to Matlab's tutorial [Image Deblurring in Matlab] and an article [SmartDeblur]. |
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@note An out-of-focus image on this page is a real world image. An out-of-focus was done manually by camera optics. |
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### What is a degradation image model? |
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A mathematical model of the image degradation in frequency domain representation is: |
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\f[S = H\cdot U + N\f] |
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where |
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\f$S\f$ is a spectrum of blurred (degraded) image, |
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\f$U\f$ is a spectrum of original true (undegraded) image, |
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\f$H\f$ is frequency response of point spread function (PSF), |
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\f$N\f$ is a spectrum of additive noise. |
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Circular PSF is a good approximation of out-of-focus distortion. Such PSF is specified by only one parameter - radius \f$R\f$. Circular PSF is used in this work. |
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### How to restore an blurred image? |
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The objective of restoration (deblurring) is to obtain an estimate of the original image. Restoration formula in frequency domain is: |
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\f[U' = H_w\cdot S\f] |
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where |
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\f$U'\f$ is spectrum of estimation of original image \f$U\f$, |
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\f$H_w\f$ is restoration filter, for example, Wiener filter. |
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### What is Wiener filter? |
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Wiener filter is a way to restore a blurred image. Let's suppose that PSF is a real and symmetric signal, a power spectrum of the original true image and noise are not known, |
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then simplified Wiener formula is: |
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\f[H_w = \frac{H}{|H|^2+\frac{1}{SNR}} \f] |
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where |
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\f$SNR\f$ is signal-to-noise ratio. |
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So, in order to recover an out-of-focus image by Wiener filter, it needs to know \f$SNR\f$ and \f$R\f$ of circular PSF. |
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Source code |
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----------- |
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You can find source code in the `samples/cpp/tutorial_code/ImgProc/out_of_focus_deblur_filter/out_of_focus_deblur_filter.cpp` of the OpenCV source code library. |
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@include cpp/tutorial_code/ImgProc/out_of_focus_deblur_filter/out_of_focus_deblur_filter.cpp |
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Explanation |
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----------- |
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An out-of-focus image recovering algorithm consists of PSF generation, Wiener filter generation and filtering an blurred image in frequency domain: |
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@snippet samples/cpp/tutorial_code/ImgProc/out_of_focus_deblur_filter/out_of_focus_deblur_filter.cpp main |
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A function calcPSF() forms an circular PSF according to input parameter radius \f$R\f$: |
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@snippet samples/cpp/tutorial_code/ImgProc/out_of_focus_deblur_filter/out_of_focus_deblur_filter.cpp calcPSF |
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A function calcWnrFilter() synthesizes simplified Wiener filter \f$H_w\f$ according to formula described above: |
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@snippet samples/cpp/tutorial_code/ImgProc/out_of_focus_deblur_filter/out_of_focus_deblur_filter.cpp calcWnrFilter |
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A function fftshift() rearranges PSF. This code was just copied from tutorial @ref tutorial_discrete_fourier_transform "Discrete Fourier Transform": |
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@snippet samples/cpp/tutorial_code/ImgProc/out_of_focus_deblur_filter/out_of_focus_deblur_filter.cpp fftshift |
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A function filter2DFreq() filters an blurred image in frequency domain: |
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@snippet samples/cpp/tutorial_code/ImgProc/out_of_focus_deblur_filter/out_of_focus_deblur_filter.cpp filter2DFreq |
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Result |
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------ |
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Below you can see real out-of-focus image: |
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Below result was done by \f$R\f$ = 53 and \f$SNR\f$ = 5200 parameters: |
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The Wiener filter was used, values of \f$R\f$ and \f$SNR\f$ were selected manually to give the best possible visual result. |
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We can see that the result is not perfect, but it gives us a hint to the image content. With some difficulty, the text is readable. |
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@note The parameter \f$R\f$ is the most important. So you should adjust \f$R\f$ first, then \f$SNR\f$. |
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@note Sometimes you can observe the ringing effect in an restored image. This effect can be reduced by several methods. For example, you can taper input image edges. |
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You can also find a quick video demonstration of this on |
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[YouTube](https://youtu.be/0bEcE4B0XP4). |
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@youtube{0bEcE4B0XP4} |
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References |
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------ |
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- [Image Deblurring in Matlab] - Image Deblurring in Matlab |
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- [SmartDeblur] - SmartDeblur site |
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<!-- invisible references list --> |
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[Digital Image Processing]: http://web.ipac.caltech.edu/staff/fmasci/home/astro_refs/Digital_Image_Processing_2ndEd.pdf |
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[Image Deblurring in Matlab]: https://www.mathworks.com/help/images/image-deblurring.html |
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[SmartDeblur]: http://yuzhikov.com/articles/BlurredImagesRestoration1.htm |
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