Provable Secure Universal Steganography of Optimal Rate

Sebastian Berndt; Maciej Lískiewicz

doi:10.1145/2909827.2930796

Provable Secure Universal Steganography of Optimal Rate

Sebastian Berndt, Maciej Lískiewicz

Institut für Theoretische Informatik

7 Zitate (Scopus)

Abstract

We present the first complexity-Theoretic secure steganographic protocol which, for any communication channel, is provably secure, reliable, and has nearly optimal bandwidth. Our system is unconditionally secure, i.e. our proof does not rely on any unproven complexity-Theoretic assumption, like e.g. the existence of one-way functions. This disproves the claim that the existence of one-way functions and access to a communication channel oracle are both necessary and sufficient conditions for the existence of secure steganography, in the sense that secure and reliable steganography exists independently of the existence of one-way functions.

Originalsprache	Englisch
Titel	IH&MMSec '16
Seitenumfang	12
Erscheinungsort	New York, NY, USA
Herausgeber (Verlag)	ACM
Erscheinungsdatum	20.06.2016
Seiten	81-92
ISBN (Print)	978-1-4503-4290-2
DOIs	https://doi.org/10.1145/2909827.2930796
Publikationsstatus	Veröffentlicht - 20.06.2016
Veranstaltung	Information Hiding and Multimedia Security - Vigo, Spanien Dauer: 20.06.2016 → 22.06.2016

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AB - We present the first complexity-Theoretic secure steganographic protocol which, for any communication channel, is provably secure, reliable, and has nearly optimal bandwidth. Our system is unconditionally secure, i.e. our proof does not rely on any unproven complexity-Theoretic assumption, like e.g. the existence of one-way functions. This disproves the claim that the existence of one-way functions and access to a communication channel oracle are both necessary and sufficient conditions for the existence of secure steganography, in the sense that secure and reliable steganography exists independently of the existence of one-way functions.

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CY - New York, NY, USA

T2 - Information Hiding and Multimedia Security

Y2 - 20 June 2016 through 22 June 2016

ER -

Provable Secure Universal Steganography of Optimal Rate

Abstract

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