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Evaluation of the chromatic assimilation effect intensity in Munker-White samples produced using standard methods of rendering

Authors
Publication date
1 January 2010
Publisher
Faculty of Mechanical Engineering in Slavonski Brod; Faculty of Electrical Engineering, Computer Science and Information Technology Osijek; Faculty of Civil Engineering in Osijek

Abstract

U svakodnevnoj komunikaciji uobičajeno je da se određena valna duljina svjetlosti vidljivog spektra ili fizičkog objekta poistovjeti s njegovom bojom. Određivanje boje spada, kao fizikalni fenomen, u područje spektrofotometrije ili spektroradiometrije. Možemo reći da se određena valna duljina pod određenim uvjetima gledanja percipira kao njihova boja. Pojavnost boje neke slike koju promatramo uvjetovana je promjenom uvjeta gledanja. Takav fenomen predstavlja izazov komunikacijskim tehnologijama koje se za prijenos informacija služe informacijom o boji. Sustavi paralelnih linija različitog obojenja koji su svojim oblikom slični klasičnim Munker-White uzorcima upotrebljavaju se svakodnevno u različitim dizajnerskim rješenjima. Upotreba takovih sustava linija može uslijed manifestacije određenih psihofizikalnih vizualnih efekata uzrokovati potencijalno odstupanje u percepciji boje pojedinih elemenata. Zbog toga istraživanja u ovom radu usmjerena su na određivanje utjecaja pojedinih standardnih metoda renderiranja na magnitudu najintenzivnijeg efekta koji se manifestira kod različitih tipova Munker-White uzorka, odnosno efekta kromatske asimilacije.In everyday communication it is common that a particular wavelength of visible light spectrum or physical object is identified with its color. Determination of color as a physical phenomenon belongs to the area of spectrophotometry or spectrum-diometry. It can be said that, under certain conditions of viewing, a particular wavelength is perceived as their color. Occurrence of color of viewed pictures depends on the change of the viewing conditions. Such a phenomenon is a challenge to communication technologies which use information about the color for the transmission of information. Systems of parallel lines of various colors that with their shape are similar to the classic Munker-White samples are used daily in a variety of design solutions. The use of such line systems may potentially, due to the manifestation of certain psychophysical visual effects, cause deviation in color perception of individual elements. Therefore, the researches in this paper are focused on determining the impact of certain standard methods of rendering on the magnitude of the most intensive effect that is manifested in different types of Munker-White pattern, or the chromatic assimilation effect

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