Estimating the size of an object captured with error (CROSBI ID 244035)
Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija
Podaci o odgovornosti
Hamedović, Safet ; Benšić, Mirta ; Sabo, Kristian ; Taler, Petar
engleski
Estimating the size of an object captured with error
In many applications we are faced with the problem of estimating object dimensions from a noisy image. Some devices like a fluorescent microscope, X-ray or ultrasound machines, etc., produce imperfect images. Image noise comes from a variety of sources. It can be produced by the physical processes of imaging, or may be caused by the presence of some unwanted structures (e.g. soft tissue captured in images of bones). In the proposed models we suppose that the data are drawn from uniform distribution on the object of interest, but contaminated by an additive error. Here we use two one-dimensional parametric models to construct confidence intervals and statistical tests pertaining to the object size and suggest the possibility of application in two- dimensional problems. Normal and Laplace distributions are used as error distributions. Finally, we illustrate ability of the R- programs we created for these problems on a real-world example.
noisy image, additive error, maximum likelihood estimator, uniform distribution, normal distribution, Laplace distribution
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