A novel encryption scheme for high-contrast image data in the Fresnelet domain.

A novel encryption scheme for high-contrast image data in the Fresnelet domain.

In this paper, a unique and more distinctive encryption algorithm is proposed. This is based on the complexity of highly nonlinear S box in Flesnelet domain. The nonlinear pattern is transformed further to enhance the confusion in the dummy data using Fresnelet technique. The security level of the e...

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Main Authors: Nargis Bibi, Shabieh Farwa, Nazeer Muhammad, Adnan Jahngir, Muhammad Usman
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2018-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC5880351?pdf=render
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spelling doaj-9aa227f41a2d46feb3128e402cae18fe2020-11-25T01:53:42ZengPublic Library of Science (PLoS)PLoS ONE1932-62032018-01-01134e019434310.1371/journal.pone.0194343A novel encryption scheme for high-contrast image data in the Fresnelet domain.Nargis BibiShabieh FarwaNazeer MuhammadNazeer MuhammadAdnan JahngirMuhammad UsmanIn this paper, a unique and more distinctive encryption algorithm is proposed. This is based on the complexity of highly nonlinear S box in Flesnelet domain. The nonlinear pattern is transformed further to enhance the confusion in the dummy data using Fresnelet technique. The security level of the encrypted image boosts using the algebra of Galois field in Fresnelet domain. At first level, the Fresnelet transform is used to propagate the given information with desired wavelength at specified distance. It decomposes given secret data into four complex subbands. These complex sub-bands are separated into two components of real subband data and imaginary subband data. At second level, the net subband data, produced at the first level, is deteriorated to non-linear diffused pattern using the unique S-box defined on the Galois field [Formula: see text]. In the diffusion process, the permuted image is substituted via dynamic algebraic S-box substitution. We prove through various analysis techniques that the proposed scheme enhances the cipher security level, extensively.http://europepmc.org/articles/PMC5880351?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Nargis Bibi
Shabieh Farwa
Nazeer Muhammad
Nazeer Muhammad
Adnan Jahngir
Muhammad Usman
spellingShingle Nargis Bibi
Shabieh Farwa
Nazeer Muhammad
Nazeer Muhammad
Adnan Jahngir
Muhammad Usman
A novel encryption scheme for high-contrast image data in the Fresnelet domain.
PLoS ONE
author_facet Nargis Bibi
Shabieh Farwa
Nazeer Muhammad
Nazeer Muhammad
Adnan Jahngir
Muhammad Usman
author_sort Nargis Bibi
title A novel encryption scheme for high-contrast image data in the Fresnelet domain.
title_short A novel encryption scheme for high-contrast image data in the Fresnelet domain.
title_full A novel encryption scheme for high-contrast image data in the Fresnelet domain.
title_fullStr A novel encryption scheme for high-contrast image data in the Fresnelet domain.
title_full_unstemmed A novel encryption scheme for high-contrast image data in the Fresnelet domain.
title_sort novel encryption scheme for high-contrast image data in the fresnelet domain.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2018-01-01
description In this paper, a unique and more distinctive encryption algorithm is proposed. This is based on the complexity of highly nonlinear S box in Flesnelet domain. The nonlinear pattern is transformed further to enhance the confusion in the dummy data using Fresnelet technique. The security level of the encrypted image boosts using the algebra of Galois field in Fresnelet domain. At first level, the Fresnelet transform is used to propagate the given information with desired wavelength at specified distance. It decomposes given secret data into four complex subbands. These complex sub-bands are separated into two components of real subband data and imaginary subband data. At second level, the net subband data, produced at the first level, is deteriorated to non-linear diffused pattern using the unique S-box defined on the Galois field [Formula: see text]. In the diffusion process, the permuted image is substituted via dynamic algebraic S-box substitution. We prove through various analysis techniques that the proposed scheme enhances the cipher security level, extensively.
url http://europepmc.org/articles/PMC5880351?pdf=render
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