In this paper, we extend a new framework introduced as active content fingerprinting in  1 that takes the best from the two worlds of content fingerprinting and digital watermarking to overcome some of the fundamental restrictions of these techniques in terms of performance and complexity. In the proposed framework, contents are modified in a way similar to watermarking to extract more robust fingerprints in contrast to conventional content fingerprinting. We investigate the performance of two modulation techniques based on unidimensional shrinkage and multidimensional lattice quantization. The simulation results on real images demonstrate the high efficiency of the proposed methods facing low-quality compression and additive noise.
|Title of host publication
|2013 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP)
|Place of Publication
|Institute of Electrical and Electronics Engineers
|Published - 2013