Computational Cognitive Color Perception

Conference paper (2016)

Authors

O. Ciftcioglu Design Informatics - Architecture and the Built Environment
M.S. Bittermann Maltepe University
Research Group
Design Informatics (Architecture and the Built Environment) (TU Delft)
Copyright: © 2016 O. Ciftcioglu, M.S. Bittermann
DOI: https://doi.org/10.1109/CEC.2016.7744068
Genetic algorithm Fuzzy neural tree Visual perception Color difference Cognitive computing Auto-association
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Published Date

2016

Language

English

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Faculty

Architecture and the Built Environment

Department

Architectural Engineering +Technology

Research Group

Design Informatics

Abstract

Comprehension of aesthetical color characteristics based on a computational model of visual perception and color cognition are presented. The computational comprehension is manifested by the machine’s capability of instantly assigning appropriate colors to the objects perceived. They form a scene with aesthetically pleasing characteristics. The present approach to computational cognition is principally the same as contrived earlier [1]. This work distinguishes itself from the earlier work through the involvement of color differences. The color difference computations are carried out based on a standard human color observer model. The color difference information is
combined with geometric perception information using the method of fuzzy neural tree based on likelihood. The study exemplifies the suitability of the computational cognition for modeling cognition phenomenon. Cognitive color perception in computational form has generic relevance to applications involving human-like aesthetical appreciation, as is the case in building architecture, for instance and other design tasks.