量子音频水印方案

Kehan Chen, Fei Yan, Abdullah M. Iliyasu, Jianping Zhao
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引用次数: 5

摘要

本研究探讨了基于量子离散余弦变换(qDCT)的量子音频信号水印方案的实现。qDCT将编码为FRQA(量子音频的灵活表示)内容的量子主机音频信号从时域变换到频域,并对高频位置进行操纵或修改以嵌入量子水印音频信息。该方案利用了DCT的强能量压缩特性,即DCT处理成数字音频后,大部分信号信息倾向于集中在少数低频分量中,而其高频分量会记录一些额外的信息,如水印音频。在量子计算电路模型的基础上,设计了执行基于qdct的水印算法的嵌入和提取过程的电路网络,并进行了基于仿真的实验来验证其实现。
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A Quantum Audio Watermarking Scheme
The study presented in this work explores the implementation of a watermarking scheme for quantum audio signals based on quantum Discrete Cosine Transformation (qDCT). The qDCT transforms the quantum host audio signal which is encoded as an FRQA (flexible representation of quantum audio) content from time domain to frequency domain and manipulates or modifies the high-frequency positions to embed the quantum watermark audio information into it. The strong energy compaction property of DCT is utilized in this scheme, i.e. after the DCT process to a digital audio, most of the signal information tends to be concentrated in a few low-frequency components and its high-frequency components could record some extra information like watermark audio. Built on the circuit model of quantum computation, the circuit networks to execute the embedding and extraction procedures of qDCT-based watermarking algorithm are designed and simulation-based experiments are conducted to demonstrate their implementation.
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