New chaos-based encryption scheme for digital sequence

Zhang Zhengwei; Fan Yangyu; Zeng Li

doi:10.1016/S1004-4132(08)60006-7

New chaos-based encryption scheme for digital sequence

Zhang Zhengwei
, Fan Yangyu
, Zeng Li

School of Electronics and Information

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

To enhance the anti-breaking performance of privacy information, this article proposes a new encryption method utilizing the leaping peculiarity of the periodic orbits of chaos systems. This method maps the secret sequence to several chaos periodic orbits, and a short sequence obtained by evolving the system parameters of the periodic orbits in another nonlinear system will be the key to reconstruct these periodic orbits. In the decryption end, the shadowing method of chaos trajectory based on the modified Newton-Raphson algorithm is adopted to restore these system parameters. Through deciding which orbit each pair coordinate falls on, the original digital sequence can be decrypted.

Original language	English
Pages (from-to)	698-703,709
Journal	Journal of Systems Engineering and Electronics
Volume	18
Issue number	4
DOIs	https://doi.org/10.1016/S1004-4132(08)60006-7
State	Published - Dec 2007

Keywords

chaos initial conditions
encryption scheme
LPO (leaping periodic orbits)
nonlinear system.
parameter estimation

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10.1016/S1004-4132(08)60006-7

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title = "New chaos-based encryption scheme for digital sequence",

abstract = "To enhance the anti-breaking performance of privacy information, this article proposes a new encryption method utilizing the leaping peculiarity of the periodic orbits of chaos systems. This method maps the secret sequence to several chaos periodic orbits, and a short sequence obtained by evolving the system parameters of the periodic orbits in another nonlinear system will be the key to reconstruct these periodic orbits. In the decryption end, the shadowing method of chaos trajectory based on the modified Newton-Raphson algorithm is adopted to restore these system parameters. Through deciding which orbit each pair coordinate falls on, the original digital sequence can be decrypted.",

keywords = "chaos initial conditions, encryption scheme, LPO (leaping periodic orbits), nonlinear system., parameter estimation",

author = "Zhang Zhengwei and Fan Yangyu and Zeng Li",

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AU - Yangyu, Fan

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N2 - To enhance the anti-breaking performance of privacy information, this article proposes a new encryption method utilizing the leaping peculiarity of the periodic orbits of chaos systems. This method maps the secret sequence to several chaos periodic orbits, and a short sequence obtained by evolving the system parameters of the periodic orbits in another nonlinear system will be the key to reconstruct these periodic orbits. In the decryption end, the shadowing method of chaos trajectory based on the modified Newton-Raphson algorithm is adopted to restore these system parameters. Through deciding which orbit each pair coordinate falls on, the original digital sequence can be decrypted.

AB - To enhance the anti-breaking performance of privacy information, this article proposes a new encryption method utilizing the leaping peculiarity of the periodic orbits of chaos systems. This method maps the secret sequence to several chaos periodic orbits, and a short sequence obtained by evolving the system parameters of the periodic orbits in another nonlinear system will be the key to reconstruct these periodic orbits. In the decryption end, the shadowing method of chaos trajectory based on the modified Newton-Raphson algorithm is adopted to restore these system parameters. Through deciding which orbit each pair coordinate falls on, the original digital sequence can be decrypted.

KW - chaos initial conditions

KW - encryption scheme

KW - LPO (leaping periodic orbits)

KW - nonlinear system.

KW - parameter estimation

UR - https://www.scopus.com/pages/publications/37549021914

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SP - 698-703,709

JO - Journal of Systems Engineering and Electronics

JF - Journal of Systems Engineering and Electronics

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ER -

New chaos-based encryption scheme for digital sequence

Abstract

Keywords

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