Dejian Xu, Kittipong Kittichokechai, T. Oechtering, M. Skoglund
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引用次数: 3
摘要
本文研究了保密约束下的带侧信息的连续细化问题。特别是,在经典的连续细化编码方案下,在两个解码器处存在退化的SI序列Yn和Zn,在窃听器处存在退化的En。根据两个开关的状态,研究了三种不同的情况。在情形1和情形3中,窃听者分别只观察到编码器1和编码器2的输出,而在情形2中,窃听者同时观察到编码器1和编码器2的输出。马尔可夫链X - Y - (Z, E)在所有情况下成立。以窃听者的观察为条件,用信源序列的归一化熵来度量其模糊性。我们完整地描述了这三种情况下的速率扭曲-模糊区域,并表明分层编码是最优的。最后给出了一个二进制源的例子。
Secure successive refinement with degraded side information
In this paper, we investigate the problem of successive refinement with side information (SI) under secrecy constraint. In particular, under classical successive refinement coding scheme, there are degraded SI sequences Yn and Zn at two decoders and En at the eavesdropper. Based on the status of two switches, three different cases are investigated. In case 1 and 3, the eavesdropper only observes output of encoder 1 and 2, respectively, while in case 2, the eavesdropper observes outputs of both encoder 1 and 2. The Markov chain X - Y - (Z, E) holds in all cases. The equivocation is measured by the normalized entropy of source sequence conditioned on the observation of eavesdropper. We completely characterize the rate-distortion-equivocation regions for all three cases, and show that layered coding is optimal. Finally, a binary source example is given.
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