Comparatively Studied Color Correction Methods for Color Calibration of Automated Microscopy Complex of Biomedical Specimens

Comparatively Studied Color Correction Methods for Color Calibration of Automated Microscopy Complex of Biomedical Specimens

The paper considers a task of generating the requirements and creating a calibration target for automated microscopy systems (AMS) of biomedical specimens to provide the invariance of algorithms and software to the hardware configuration. The required number of color fields of the calibration target...

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Bibliographic Details
Main Authors: T. A. Kravtsova, D. A. Dobrolubova, A. V. Samorodov
Format: Article
Language:Russian
Published: MGTU im. N.È. Baumana 2016-01-01
Series:Nauka i Obrazovanie
Subjects:
color calibration
color correction
optical microscopy
automated microscopy
calibration target
Online Access:http://technomag.edu.ru/jour/article/view/63
Description
Summary:The paper considers a task of generating the requirements and creating a calibration target for automated microscopy systems (AMS) of biomedical specimens to provide the invariance of algorithms and software to the hardware configuration. The required number of color fields of the calibration target and their color coordinates are mostly determined by the color correction method, for which coefficients of the equations are estimated during the calibration process. The paper analyses existing color calibration techniques for digital imaging systems using an optical microscope and shows that there is a lack of published results of comparative studies to demonstrate a particular useful color correction method for microscopic images. A comparative study of ten image color correction methods in RGB space using polynomials and combinations of color coordinate of different orders was carried out. The method of conditioned least squares to estimate the coefficients in the color correction equations using captured images of 217 color fields of the calibration target Kodak Q60-E3 was applied. The regularization parameter in this method was chosen experimentally. It was demonstrated that the best color correction quality characteristics are provided by the method that uses a combination of color coordinates of the 3rd order. The study of the influence of the number and the set of color fields included in calibration target on color correction quality for microscopic images was performed. Six train sets containing 30, 35, 40, 50, 60 and 80 color fields, and test set of 47 color fields not included in any of the train sets were formed. It was found out that the train set of 60 color fields minimizes the color correction error values for both operating modes of digital camera: using "default" color settings and with automatic white balance. At the same time it was established that the use of color fields from the widely used now Kodak Q60-E3 target does not allow achieving values of microscopic images color correction errors below the color difference level of visibility for the human eye. The conclusion is that there is a need in development of specialized calibration target for AMS of biomedical specimens.
ISSN:1994-0408

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