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Deblur image using blind deconvolution
[J,PSF] = deconvblind(I, INITPSF)
[J,PSF] = deconvblind(I, INITPSF, NUMIT)
[J,PSF] = deconvblind(I, INITPSF, NUMIT,
DAMPAR)
[J,PSF] = deconvblind(I, INITPSF, NUMIT,
DAMPAR, WEIGHT)
[J,PSF] = deconvblind(I, INITPSF, NUMIT,
DAMPAR, WEIGHT, READOUT)
[J,PSF] = deconvblind(..., FUN, P1,
P2,...,PN)
[J,PSF] = deconvblind(I, INITPSF) deconvolves image I using the maximum likelihood algorithm, returning both the deblurred image J and a restored point-spread function PSF. The restored PSF is a positive array that is the same size as INITPSF, normalized so its sum adds up to 1. The PSF restoration is affected strongly by the size of the initial guess INITPSF and less by the values it contains. For this reason, specify an array of 1's as your INITPSF.
I can be an N-dimensional array.
To improve the restoration, deconvblind supports several optional parameters, described below. Use [] as a placeholder if you do not specify an intermediate parameter.
[J,PSF] = deconvblind(I, INITPSF, NUMIT) specifies the number of iterations (default is 10).
[J,PSF] = deconvblind(I, INITPSF, NUMIT, DAMPAR) specifies the threshold deviation of the resulting image from the input image I (in terms of the standard deviation of Poisson noise) below which damping occurs. The iterations are suppressed for the pixels that deviate within the DAMPAR value from their original value. This suppresses the noise generation in such pixels, preserving necessary image details elsewhere. The default value is 0 (no damping).
[J,PSF] = deconvblind(I, INITPSF, NUMIT, DAMPAR, WEIGHT) specifies which pixels in the input image I are considered in the restoration. By default, WEIGHT is a unit array, the same size as the input image. You can assign a value between 0.0 and 1.0 to elements in the WEIGHT array. The value of an element in the WEIGHT array determines how much the pixel at the corresponding position in the input image is considered. For example, to exclude a pixel from consideration, assign it a value of 0 in the WEIGHT array. You can adjust the weight value assigned to each pixel according to the amount of flat-field correction.
[J,PSF] = deconvblind(I, INITPSF, NUMIT, DAMPAR, WEIGHT, READOUT), where READOUT is an array (or a value) corresponding to the additive noise (e.g., background, foreground noise) and the variance of the read-out camera noise. READOUT has to be in the units of the image. The default value is 0.
[J,PSF] = deconvblind(..., FUN, P1, P2,...,PN), where FUN is a function describing additional constraints on the PSF. FUN must be a function handle.
FUN is called at the end of each iteration. FUN must accept the PSF as its first argument and can accept additional parameters P1, P2,..., PN. The FUN function should return one argument, PSF, that is the same size as the original PSF and that satisfies the positivity and normalization constraints.
Parameterizing Functions, in the MATLAB Mathematics documentation, explains how to provide additional parameters to the function fun.
You can use deconvblind to perform a deconvolution that starts where a previous deconvolution stopped. To use this feature, pass the input image I and the initial guess at the PSF, INITPSF, as cell arrays: {I} and {INITPSF}. When you do, the deconvblind function returns the output image J and the restored point-spread function, PSF, as cell arrays, which can then be passed as the input arrays into the next deconvblind call. The output cell array J contains four elements:
J{1} contains I, the original image.
J{2} contains the result of the last iteration.
J{3} contains the result of the next-to-last iteration.
J{4} is an array generated by the iterative algorithm.
I and INITPSF can be uint8, uint16, int16, single, or double. DAMPAR and READOUT must have the same class as the input image. Other inputs have to be double. The output image J (or the first array of the output cell) has the same class as the input image I. The output PSF is double.
deconvlucy | deconvreg | deconvwnr | edgetaper | function_handle | imnoise | otf2psf | padarray | psf2otf