Fingerprinting With Equiangular Tight Frames

Author

Mixon, Dustin G. ; Quinn, Christopher J. ; Kiyavash, Negar ; Fickus, Matthew

Author_Institution

Dept. of Math. & Stat., Air Force Inst. of Technol., Wright-Patterson AFB, OH, USA

Volume

59

Issue

3

fYear

2013

fDate

Mar-13

Firstpage

1855

Lastpage

1865

Abstract

Digital fingerprinting is a framework for marking media files, such as images, music, or movies, with user-specific signatures to deter illegal distribution. Multiple users can collude to produce a forgery that can potentially overcome a fingerprinting system. This paper proposes an equiangular tight frame fingerprint design which is robust to such collusion attacks. We motivate this design by considering digital fingerprinting in terms of compressed sensing. The attack is modeled as linear averaging of multiple marked copies before adding a Gaussian noise vector. The content owner can then determine guilt by exploiting correlation between each user´s fingerprint and the forged copy. The worst case error probability of this detection scheme is analyzed and bounded. Simulation results demonstrate that the average-case performance is similar to the performance of orthogonal and simplex fingerprint designs, while accommodating several times as many users.

Keywords

Gaussian noise; compressed sensing; digital signatures; error statistics; Gaussian noise vector; average case performance; collusion attacks; compressed sensing; digital fingerprinting system; equiangular tight frame fingerprint design; forged copy; forgery; illegal distribution; media files marking; simplex fingerprint design; user fingerprint; user specific signatures; worst case error probability; Coherence; Compressed sensing; Error probability; Forgery; Media; Noise; Vectors; Collusion attacks; digital fingerprinting; frames;

fLanguage

English

Journal_Title

Information Theory, IEEE Transactions on

Publisher

ieee

ISSN

0018-9448

Type

jour

DOI

10.1109/TIT.2012.2229781

Filename

6420944