by Mauricio Delbracio, Andrés Almansa, Pablo Musé
Abstract:
In most typical digital cameras, even high-end digital single lens reflex ones (DSLR), the acquired images are sampled at rates below the Nyquist critical rate, causing aliasing effects. In this work we describe a new algorithm for the estimation of the point spread function (PSF) of a digital camera from aliased photographs, that achieves subpixel accuracy. The procedure is based on taking two parallel photographs of the same scene, from different distances leading to different geometric zooms, and then estimating the kernel blur between them.
Reference:
Recovering the Subpixel PSF from Two Photographs at Different Distances (Mauricio Delbracio, Andrés Almansa, Pablo Musé), In Image Processing On Line, volume 3, 2013.
Bibtex Entry:
@article{Delbracio2013:IPOL:PSF-Blind,
Abstract = {In most typical digital cameras, even high-end digital single lens reflex ones (DSLR), the acquired images are sampled at rates below the Nyquist critical rate, causing aliasing effects. In this work we describe a new algorithm for the estimation of the point spread function (PSF) of a digital camera from aliased photographs, that achieves subpixel accuracy. The procedure is based on taking two parallel photographs of the same scene, from different distances leading to different geometric zooms, and then estimating the kernel blur between them.},
Annote = {Published oct 2013},
Author = {Delbracio, Mauricio and Almansa, Andr{\'{e}}s and Mus{\'{e}}, Pablo},
Doi = {10.5201/ipol.2013.77},
Issn = {2105-1232},
Journal = {Image Processing On Line},
Keywords = {aliasing,blur,calibration,mtf,psf,subpixel},
Language = {en},
Month = {oct},
Pages = {242--251},
Title = {{Recovering the Subpixel PSF from Two Photographs at Different Distances}},
Volume = {3},
Year = {2013},
Bdsk-Url-1 = {https://doi.org/10.5201/ipol.2013.77}}