Informed detection of audio watermark for resolving playback speed modifications
Proceedings of the 2004 workshop on Multimedia and security
An SVD-based audio watermarking technique
MM&Sec '05 Proceedings of the 7th workshop on Multimedia and security
Statistical audio watermarking algorithm based on perceptual analysis
Proceedings of the 5th ACM workshop on Digital rights management
Content-adaptive digital music watermarking based on music structure analysis
ACM Transactions on Multimedia Computing, Communications, and Applications (TOMCCAP)
Robust watermarking of audio with blind self-authentication
EHAC'08 Proceedings of the 7th WSEAS International Conference on Electronics, Hardware, Wireless and Optical Communications
Blind tamper detection in audio using chirp based robust watermarking
WSEAS Transactions on Signal Processing
Digital Signal Processing
Blind robust watermarking of 3d motion data
ACM Transactions on Multimedia Computing, Communications, and Applications (TOMCCAP)
Audio Watermarking Based on Advanced Wigner Distribution and Important Frequency Peaks
International Journal of High Performance Computing Applications
An SVD audio watermarking approach using chaotic encrypted images
Digital Signal Processing
A dual cepstrum-based watermarking scheme with self-synchronization
Signal Processing
Secure watermark embedding through partial encryption
IWDW'06 Proceedings of the 5th international conference on Digital Watermarking
| Hi-index | 35.68 |
Audio watermarking techniques can be used to embed extra information into audio signals. The goal is to hide prespecified data carrying some information into the audio stream such that it is not audible to the human ear (i.e., transparent) and is, at the same time, resistant to removal attacks (i.e., robust). In the currently known watermarking systems, the above challenges are not always adequately resolved. We present an alternative audio watermarking technique that mitigates these and other related shortcomings. The system is referred to as modified audio signal keying (MASK). In MASK, the short-time envelope of the audio signal is modified in such a way that the change is imperceptible to the human listener. The MASK system can easily be tailored for a wide range of applications. Moreover, informal experimental results show that it has a good robustness and audibility behavior.