Abstract
This paper presents, analyzes and improves the false positive problem detected in Convolutional Fingerprinting Information Codes presented by Zhu et al. The codes are a concatenation of a convolutional code and a Boneh-Shaw code. In their paper Zhu et al. present a code construction that is not necessarily c-secure with ε-error because in their modified detection algorithm the standard Viterbi error probability analysis cannot be directly applied. In this case we show that false positives appear, that is to say, the problem of accusing an innocent and legal user of an illegal redistribution. In this paper, we give a bound on the probability of false positives and justify it analytically and by simulations. Moreover, some guidelines for a correct design of this family of codes is also given.
This work has been supported partially by the Spanish Research Council (CICYT) Project TSI2005-07293-C02-01 (SECONNET), by the Spanish Ministry of Science and Education with CONSOLIDER CSD2007-00004 (ARES) and by Generalitat de Catalunya with the grant 2005 SGR 01015 to consolidated research groups.
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Tomàs-Buliart, J., Fernandez, M., Soriano, M. (2009). Improvement of Collusion Secure Convolutional Fingerprinting Information Codes. In: Desmedt, Y. (eds) Information Theoretic Security. ICITS 2007. Lecture Notes in Computer Science, vol 4883. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-10230-1_6
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DOI: https://doi.org/10.1007/978-3-642-10230-1_6
Publisher Name: Springer, Berlin, Heidelberg
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