Title :
Spread-spectrum watermarking of audio signals
Author :
Kirovski, Darko ; Malvar, Henrique S.
Author_Institution :
Microsoft Res., Redmond, WA, USA
fDate :
4/1/2003 12:00:00 AM
Abstract :
Watermarking has become a technology of choice for a broad range of multimedia copyright protection applications. Watermarks have also been used to embed format-independent metadata in audio/video signals in a way that is robust to common editing. In this paper, we present several novel mechanisms for effective encoding and detection of direct-sequence spread-spectrum watermarks in audio signals. The developed techniques aim at (i) improving detection convergence and robustness, (ii) improving watermark imperceptiveness, (iii) preventing desynchronization attacks, (iv) alleviating estimation/removal attacks, and finally, (v) establishing covert communication over a public audio channel. We explore the security implications of the developed mechanisms and review watermark robustness on a benchmark suite that includes a combination of audio processing primitives including: time- and frequency-scaling with wow-and-flutter, additive and multiplicative noise, resampling, requantization, noise reduction, and filtering.
Keywords :
audio coding; filtering theory; noise; quantisation (signal); security of data; signal detection; signal sampling; spread spectrum communication; watermarking; additive noise; audio processing primitives; audio signals; covert communication; desynchronization attacks prevention; detection convergence; direct-sequence spread-spectrum watermarks; editing; estimation/removal attacks; filtering; flutter; format-independent metadata; frequency-scaling; multimedia copyright protection; multiplicative noise; noise reduction; public audio channel; requantization; resampling; robustness; spread-spectrum watermarking; time-scaling; video signals; watermark robustness; wow; Additive noise; Data mining; Detectors; Internet; Noise reduction; Peer to peer computing; Robustness; Security; Spread spectrum communication; Watermarking;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2003.809384
