DocumentCode
2819388
Title
Patch similarity under non Gaussian noise
Author
Deledalle, Charles-Alban ; Tupin, Florence ; Denis, Loïc
Author_Institution
Telecom ParisTech, LTCI, Inst. Telecom, Paris, France
fYear
2011
fDate
11-14 Sept. 2011
Firstpage
1845
Lastpage
1848
Abstract
Many tasks in computer vision require to match image parts. While higher-level methods consider image features such as edges or robust descriptors, low-level approaches compare groups of pixels (patches) and provide dense matching. Patch similarity is a key ingredient to many techniques for image registration, stereo-vision, change detection or denoising. A fundamental difficulty when comparing two patches from “real” data is to decide whether the differences should be ascribed to noise or intrinsic dissimilarity. Gaussian noise assumption leads to the classical definition of patch similarity based on the squared intensity differences. When the noise departs from the Gaussian distribution, several similarity criteria have been proposed in the literature. We review seven of those criteria taken from the fields of image processing, detection theory and machine learning. We discuss their theoretical grounding and provide a numerical comparison of their performance under Gamma and Poisson noises.
Keywords
Gaussian distribution; computer vision; image denoising; image matching; learning (artificial intelligence); object detection; stereo image processing; visual perception; Gamma noises; Gaussian distribution; Poisson noises; change detection; computer vision; image denoising; image edges; image features; image matching; image processing; image registration; intrinsic dissimilarity; low-level approaches; machine learning; nonGaussian noise; patch similarity; robust descriptors; squared intensity differences; stereovision; Bayesian methods; Joints; Kernel; Maximum likelihood estimation; Mutual information; Noise; Noise measurement; Bayesian approach; Detection; Likelihood ratio; Matching; Patch similarity;
fLanguage
English
Publisher
ieee
Conference_Titel
Image Processing (ICIP), 2011 18th IEEE International Conference on
Conference_Location
Brussels
ISSN
1522-4880
Print_ISBN
978-1-4577-1304-0
Electronic_ISBN
1522-4880
Type
conf
DOI
10.1109/ICIP.2011.6115825
Filename
6115825
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