Title :
An information-theoretic analysis of dirty paper coding for informed audio watermarking
Author :
Abrardo, A. ; Barni, M. ; Gorrieri, Andrea ; Ferrari, Giorgio
Author_Institution :
Dept. of Inf. Eng. & Math. Sci., Univ. of Siena, Siena, Italy
Abstract :
Upon the introduction a simplified distortion model for a Gaussian audio watermaking scenario, we derive a lower bound for the Gelfand-Pinsker capacity of the watermark channel. Then, we use the capacity bound for designing an efficient practical watermarking scheme based on dirty trellis codes. The proposed information-theoretic framework is then validated, through the use of experimentally acquired audio signals, with the use of a recently proposed frequency-domain audio watermarking. Both an “ideal” (reflection-free) Gaussian acoustic channel and a realistic multipath acoustic channel are considered.
Keywords :
Gaussian channels; acoustic signal detection; audio coding; audio watermarking; channel capacity; frequency-domain analysis; multipath channels; trellis codes; Gaussian audio watermarking scenario; Gelfand-Pinsker capacity; audio signal acquisition; dirty Trellis codes; dirty paper coding; distortion model; frequency-domain audio watermarking; ideal Gaussian acoustic channel; information-theoretic analysis; informed audio watermarking; realistic multipath acoustic channel; reflection-free Gaussian acoustic channel; watermark channel; Acoustic distortion; Acoustics; Interference; Random variables; Rocks; Signal to noise ratio; Watermarking;
Conference_Titel :
Information Theory and Applications Workshop (ITA), 2014
Conference_Location :
San Diego, CA
DOI :
10.1109/ITA.2014.6804212
