Public Channel Cryptography Based on Synchronization of Chaotic Lasers

Ido Kanter; Yitzhak Peleg; Meital Zigzag; Wolfgang Kinzel

doi:10.34385/proc.45.B1L-B1

Public Channel Cryptography Based on Synchronization of Chaotic Lasers

Ido Kanter, Yitzhak Peleg, Meital Zigzag, Wolfgang Kinzel

Department of Physics

Bar-Ilan University

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

Abstract

Recently, physical random number generators (RBGs) based on chaotic semiconductor lasers were shown to exceed Gbit/s rates. Whether secure synchronization of two high rate physical RBGs is possible remains an open question. Here we propose a method, whereby two fast RBGs based on mutually coupled chaotic lasers, are synchronized. Using information theoretic analysis we demonstrate security against a powerful computational eavesdropper, capable of noiseless amplification, where all parameters are publicly known. The method is also extended to secure synchronization of a small network of three RBGs.

Original language	English
Pages (from-to)	326-329
Number of pages	4
Journal	IEICE Proceedings Series
Volume	45
Issue number	B1L-B1
DOIs	https://doi.org/10.34385/proc.45.B1L-B1
State	Published - 4 Sep 2011

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10.34385/proc.45.B1L-B1

Cite this

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title = "Public Channel Cryptography Based on Synchronization of Chaotic Lasers",

abstract = "Recently, physical random number generators (RBGs) based on chaotic semiconductor lasers were shown to exceed Gbit/s rates. Whether secure synchronization of two high rate physical RBGs is possible remains an open question. Here we propose a method, whereby two fast RBGs based on mutually coupled chaotic lasers, are synchronized. Using information theoretic analysis we demonstrate security against a powerful computational eavesdropper, capable of noiseless amplification, where all parameters are publicly known. The method is also extended to secure synchronization of a small network of three RBGs.",

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AU - Kanter, Ido

AU - Peleg, Yitzhak

AU - Zigzag, Meital

AU - Kinzel, Wolfgang

PY - 2011/9/4

Y1 - 2011/9/4

N2 - Recently, physical random number generators (RBGs) based on chaotic semiconductor lasers were shown to exceed Gbit/s rates. Whether secure synchronization of two high rate physical RBGs is possible remains an open question. Here we propose a method, whereby two fast RBGs based on mutually coupled chaotic lasers, are synchronized. Using information theoretic analysis we demonstrate security against a powerful computational eavesdropper, capable of noiseless amplification, where all parameters are publicly known. The method is also extended to secure synchronization of a small network of three RBGs.

AB - Recently, physical random number generators (RBGs) based on chaotic semiconductor lasers were shown to exceed Gbit/s rates. Whether secure synchronization of two high rate physical RBGs is possible remains an open question. Here we propose a method, whereby two fast RBGs based on mutually coupled chaotic lasers, are synchronized. Using information theoretic analysis we demonstrate security against a powerful computational eavesdropper, capable of noiseless amplification, where all parameters are publicly known. The method is also extended to secure synchronization of a small network of three RBGs.

U2 - 10.34385/proc.45.B1L-B1

DO - 10.34385/proc.45.B1L-B1

M3 - مقالة

SN - 2188-5079

VL - 45

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EP - 329

JO - IEICE Proceedings Series

JF - IEICE Proceedings Series

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