%0 Journal Article
%T Metrological Modeling of Colorimetric Measurements Results in Hardware and Software Environments
%J Biocoreopen
%D 2020
%R 10.25141/2474-8811-2016-1.0006
%X The main development stages of the Colorimetry are described. The basic concepts and trends of modern colorimetry are defined. The definition of the term a£¿£¿High Resolution Colorimetrya£¿£¿ as a new advance direction, based on the usage of rendering information systems and technologies of digital images processing is derived. Developed models of measurements results by the author are presented. They are the a£¿£¿basea£¿£¿, a£¿£¿fractala£¿£¿, a£¿£¿informationa£¿£¿ and a£¿£¿complexa£¿£¿ measurements results models which are got in hardware and software environments. The results of these investigations can be used in a control of the self-luminous and non-self-luminous objects at all stages of their life cycle
%K According to figure 9 a measuring result is a plane of scope for the two-dimensional value (the model of Voronoy on figure 9 a and the triangulation model on figure 9 b ) and an area of scope for the three-dimensional value (the GUM model on a figure 9 £¿£¿ and the Fershilda£¿£¿s model on a figure 9 d). The losses of information in the process of treatment result to reduction of amount of points and expansion of scope areas in the model of Voronoy. We can see the increasing of diameters described circumferences in a triangulation model. Failures of separate sectors are visible in the three-dimensional model of GUM. Areas of vagueness are laid on each other for the model Fairchilda£¿£¿s model. Concordant projection of areas of scope on a plane will be ellipses or parallelograms for the GUM model or more difficult figures in discrete systems as shown on a figure 10.
%U https://biocoreopen.org/ijnme/Metrological-modeling-of-colorimetric-measurements-results-in-hardware-and-software-environments.php