An image encryption algorithm based on a hidden attractor chaos system and the Knuth–Durstenfeld algorithm

• First, a hidden attractor chaos system is used to encrypt digital image. Compared to self-excited attractor, hidden attractor's attracting basin does not intersect with any small neighborhoods of the equilibria. It is difficult for attackers to reconstruct the attractor by finding equilibrium...
Ausführliche Beschreibung

Gespeichert in:

Autor*in:	Wang, SiCheng [verfasserIn] Wang, ChunHua Xu, Cong

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2020

Übergeordnetes Werk:	Enthalten in: Performance enhancement strategies of a hybrid solar chimney power plant integrated with photovoltaic panel - Pratap Singh, Ajeet ELSEVIER, 2020, Amsterdam [u.a.]
Übergeordnetes Werk:	volume:128 ; year:2020 ; pages:0

Links:	Volltext

DOI / URN:	10.1016/j.optlaseng.2019.105995

Katalog-ID:	ELV050272217

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520			\|a • First, a hidden attractor chaos system is used to encrypt digital image. Compared to self-excited attractor, hidden attractor's attracting basin does not intersect with any small neighborhoods of the equilibria. It is difficult for attackers to reconstruct the attractor by finding equilibrium points. • Second, Knuth–Durstenfeld algorithm has good randomness. At the same time, Knuth–durstenfeld algorithm can reduce the time complexity and the space complexity of the permutation while achieving good permutation effect.
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title	An image encryption algorithm based on a hidden attractor chaos system and the Knuth–Durstenfeld algorithm
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title_sort	an image encryption algorithm based on a hidden attractor chaos system and the knuth–durstenfeld algorithm
title_auth	An image encryption algorithm based on a hidden attractor chaos system and the Knuth–Durstenfeld algorithm
abstract	• First, a hidden attractor chaos system is used to encrypt digital image. Compared to self-excited attractor, hidden attractor's attracting basin does not intersect with any small neighborhoods of the equilibria. It is difficult for attackers to reconstruct the attractor by finding equilibrium points. • Second, Knuth–Durstenfeld algorithm has good randomness. At the same time, Knuth–durstenfeld algorithm can reduce the time complexity and the space complexity of the permutation while achieving good permutation effect.
abstractGer	• First, a hidden attractor chaos system is used to encrypt digital image. Compared to self-excited attractor, hidden attractor's attracting basin does not intersect with any small neighborhoods of the equilibria. It is difficult for attackers to reconstruct the attractor by finding equilibrium points. • Second, Knuth–Durstenfeld algorithm has good randomness. At the same time, Knuth–durstenfeld algorithm can reduce the time complexity and the space complexity of the permutation while achieving good permutation effect.
abstract_unstemmed	• First, a hidden attractor chaos system is used to encrypt digital image. Compared to self-excited attractor, hidden attractor's attracting basin does not intersect with any small neighborhoods of the equilibria. It is difficult for attackers to reconstruct the attractor by finding equilibrium points. • Second, Knuth–Durstenfeld algorithm has good randomness. At the same time, Knuth–durstenfeld algorithm can reduce the time complexity and the space complexity of the permutation while achieving good permutation effect.
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title_short	An image encryption algorithm based on a hidden attractor chaos system and the Knuth–Durstenfeld algorithm
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An image encryption algorithm based on a hidden attractor chaos system and the Knuth–Durstenfeld algorithm

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