Author :
Baudry, Séverine ; Nguyen, Philippe ; Maître, Henri
Abstract :
Watermarking is often modeled as the transmission of a message over a very noisy channel. Indeed, the watermark power must be very low to ensure invisibility, and the modifications suffered by an image can be rather strong (JPEG or MPEG compression for instance), leading to a high noise level. To ensure a reliable transmission on a channel with such a low SNR, channel coding is thus mandatory. However, as standard codes are not adapted to such noisy channels, we propose a coding scheme based on concatenated codes. We show that, for these codes, optimal decoding is far too complex, and that hard decoding algorithms used in practice lead to poor performance. As soft decoding enables to approach optimal decoding at lower cost, we adapt the classical Chase (1972) decoding algorithm to the watermarking context, and propose a new soft decoding algorithm based on tree exploration
Keywords :
BCH codes; channel coding; concatenated codes; copy protection; copyright; data compression; decoding; noise; optimisation; security of data; tree searching; video coding; BCH coding; Chase decoding algorithm; JPEG compression; MPEG compression; channel coding; concatenated codes; hard decoding algorithms; high noise level; image modifications; low SNR; message transmission; noisy channel; optimal decoding; reliable transmission; soft decoding algorithm; standard codes; standard copyright-identifiers; tree exploration; video watermarking; watermark retrieval; Channel coding; Code standards; Concatenated codes; Decoding; Image coding; Noise level; Signal to noise ratio; Transform coding; Video compression; Watermarking;
