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Please use this identifier to cite or link to this item:
http://repository.fuoye.edu.ng/handle/123456789/146
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| Title: | Black point compensation and its influence on image appearance |
| Authors: | Authors: Dragoljub Novaković, Igor Karlović
Ivana Tomić |
| Keywords: | rendering intent
mapping
colour appearance |
| Issue Date: | 10-Sep-2010 |
| Publisher: | Original scientific paper |
| Citation: | Adobe Systems Incorporated. (2006) Adobe Sys- tems’ Implementation of Black Point Compensa- tion. [Online] Avaliable from: http://www.color. org/AdobeBPC.pdf [Accessed 5th February 2009]. |
| Abstract: | Black point compensation (BPC) is a feature developed by the Adobe company in order to address the problem caused
by differences between the darkest level of black achievable on input and output devices and it’s not a part of ICC
specifications. If it’s turned on – black colour of input device will be mapped into the black colour of an output device;
if it’s not – mapping will be performed regarding the rendering intents. By default this option is turned on, which is
a good solution in most cases. The aim of the work is to accurately define when black point compensation should be
activated, and when not, and also to investigate influence of different colour management modules on colours alloca-
tion after conversions, in accordance to their psychophysical values. Regarding theoretical background and results of
experimental part of this work conclusions about BPC usability are carried out. |
| Description: | Black point compensation (BPC) is a feature developed by the Adobe company in order to address the problem caused
by differences between the darkest level of black achievable on input and output devices and it’s not a part of ICC
specifications. If it’s turned on – black colour of input device will be mapped into the black colour of an output device;
if it’s not – mapping will be performed regarding the rendering intents. By default this option is turned on, which is
a good solution in most cases. The aim of the work is to accurately define when black point compensation should be
activated, and when not, and also to investigate influence of different colour management modules on colours alloca-
tion after conversions, in accordance to their psychophysical values. Regarding theoretical background and results of
experimental part of this work conclusions about BPC usability are carried out. |
| URI: | http://repository.fuoye.edu.ng/handle/123456789/146 |
| Appears in Collections: | Civil Engineering Journal Publications
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