Title :
Linear filters for deconvolution microscopy
Author :
Homem, M.R.P. ; Mascarenhas, N.D.A. ; Costa, L. Da F
Author_Institution :
Departamento de Computacao, Univ. Fed. de Sao Carlos, Brazil
Abstract :
We present two linear, non-iterative approaches for deconvolution of three-dimensional images that are able to produce good approximations of the true fluorescence concentration in computational optical sectioning microscopy. Both the proposed filters take into account the nature of the noise due to the low level of photon counts. We present some results of the applicability of the methods using a phantom image, where the improvement in signal-to-noise ratio was used in order to quantify the restoration results, and also using real cell images. We compare the algorithms with the regularized linear least squares algorithm considering different levels of Poisson noise.
Keywords :
deconvolution; filtering theory; fluorescence; image restoration; medical image processing; optical microscopy; random noise; computational optical sectioning microscopy; deconvolution microscopy; fluorescence concentration; image restoration; light microscopy; linear filters; phantom image; photon counts; signal-to-noise ratio; three-dimensional images; Deconvolution; Fluorescence; Imaging phantoms; Least squares approximation; Noise level; Nonlinear filters; Optical computing; Optical filters; Optical microscopy; Optical noise;
Conference_Titel :
Image Analysis and Interpretation, 2004. 6th IEEE Southwest Symposium on
Print_ISBN :
0-7803-8387-7
DOI :
10.1109/IAI.2004.1300962
