Multibit quantization index modulation: A high-rate robust data-hiding method
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- 作者:Amit Phadikar
- 关键词:Watermarking ; Multibit QIM ; M-ary amplitude modulation ; Lifting ; Robustness
- 刊名:Journal of King Saud University - Computer and Information Sciences
- 出版年:2013
- 出版时间:July, 2013
- 年:2013
- 卷:25
- 期:2
- 页码:163-171
- 全文大小:1383 K
文摘
Nowadays, the quantization index modulation (QIM) principle is popular in digital watermarking due to its considerable performance advantages over spread-spectrum and low-bit(s) modulation. In a QIM-based data-hiding scheme, it is a challenging task to embed multiple bits of information into the host signal. This work proposes a new model of QIM, i.e., the M-ary amplitude modulation principle for multibit watermarking. The watermark embedding process may be divided into two phases. In the first phase, a binary watermark image is spatially dispersed using a sequence of numbers generated by a secret key. In the second phase, the host image is decomposed by lifting, and the encoded watermark bits are embedded into the high-low (HL) and low-high (LH) subbands of DWT-coefficients using M-ary amplitude modulation. The results of the simulation show that the robustness increases, at the cost of increased decoding complexity, for a high M-value. Furthermore, this investigation has shown that the decoding complexity of higher M-values can be overcome at moderate N-values, while the robustness performance is maintained at satisfactory level.