Retooling of Color Imaging in ihe Quaternion Algebra
A. Grigoryan, and S. Agaian. Applied Mathematics and Sciences: An International Journal (MathSJ), volume 1 of IFIP Advances in Information and Communication Technology, page 23-39. Springer, (December 2014)
Abstract
A novel quaternion color representation tool is proposed to the images and videos efficiently. In this work, we consider a full model for representation and processing color images in the quaternion algebra. Color images are presented in the threefold complex plane where each color component is described by a complex image. Our preliminary experimental results show significant performance improvements of the proposed approach over other well-known color image processing techniques. Moreover, we have shown how a particular image enhancement of the framework leads to excellent color enhancement (better than other algorithms tested). In the framework of the proposed model, many other color processing algorithms, including filtration and restoration, can be expressed.
%0 Conference Paper
%1 conf/ifip13/ThengTT10a
%A Grigoryan, Artyom M.
%A Agaian, Sos S.
%B Applied Mathematics and Sciences: An International Journal (MathSJ)
%D 2014
%E Forbrig, Peter
%E Paternò, Fabio
%E Pejtersen, Annelise Mark
%I Springer
%K Analysis Color Discrete Fourier Image Quaternion Transform Transformation
%N 3
%P 23-39
%T Retooling of Color Imaging in ihe Quaternion Algebra
%U https://airccse.com/mathsj/papers/1314mathsj02.pdf
%V 1
%X A novel quaternion color representation tool is proposed to the images and videos efficiently. In this work, we consider a full model for representation and processing color images in the quaternion algebra. Color images are presented in the threefold complex plane where each color component is described by a complex image. Our preliminary experimental results show significant performance improvements of the proposed approach over other well-known color image processing techniques. Moreover, we have shown how a particular image enhancement of the framework leads to excellent color enhancement (better than other algorithms tested). In the framework of the proposed model, many other color processing algorithms, including filtration and restoration, can be expressed.
%@ 978-3-642-15230-6
@inproceedings{conf/ifip13/ThengTT10a,
abstract = {A novel quaternion color representation tool is proposed to the images and videos efficiently. In this work, we consider a full model for representation and processing color images in the quaternion algebra. Color images are presented in the threefold complex plane where each color component is described by a complex image. Our preliminary experimental results show significant performance improvements of the proposed approach over other well-known color image processing techniques. Moreover, we have shown how a particular image enhancement of the framework leads to excellent color enhancement (better than other algorithms tested). In the framework of the proposed model, many other color processing algorithms, including filtration and restoration, can be expressed.
},
added-at = {2021-11-11T12:17:20.000+0100},
author = {Grigoryan, Artyom M. and Agaian, Sos S.},
biburl = {https://www.bibsonomy.org/bibtex/2d980af64bcd2f0ab533ba6fbcdec695e/journalmathsj},
booktitle = {Applied Mathematics and Sciences: An International Journal (MathSJ)},
crossref = {conf/ifip13/2010},
editor = {Forbrig, Peter and Paternò, Fabio and Pejtersen, Annelise Mark},
ee = {https://doi.org/10.1007/978-3-642-15231-3_32},
interhash = {602f87400dd123db23fea2e3f8881feb},
intrahash = {d980af64bcd2f0ab533ba6fbcdec695e},
isbn = {978-3-642-15230-6},
issn = {2349 - 6223},
keywords = {Analysis Color Discrete Fourier Image Quaternion Transform Transformation},
language = {English},
month = dec,
number = 3,
pages = {23-39},
publisher = {Springer},
series = {IFIP Advances in Information and Communication Technology},
timestamp = {2021-11-11T12:17:20.000+0100},
title = {Retooling of Color Imaging in ihe Quaternion Algebra},
url = {https://airccse.com/mathsj/papers/1314mathsj02.pdf},
volume = 1,
year = 2014
}