Sequence reconstruction over the deletion channel

2016 IEEE International Symposium on Information Theory (ISIT) Pub Date : 2016-07-10 DOI:10.1109/ISIT.2016.7541568

Ryan Gabrys, Eitan Yaakobi

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引用次数: 1

Abstract

The sequence-reconstruction problem, first proposed by Levenshtein, models a setup in which a sequence from some set is transmitted over several independent channels, and the decoder receives the outputs from every channel. The main problem of interest is to determine the minimum number of channels required to reconstruct the transmitted sequence. In the combinatorial context, the problem is equivalent to finding the maximum intersection between two balls of radius t where the distance between their centers is at least d. The setup of this problem was studied before for several error metrics such as the Hamming metric, the Kendall-tau metric, and the Johnson metric. In this paper, we extend the study initiated by Levenshtein for reconstructing sequences over the deletion channel. While he solved the case where the transmitted word can be arbitrary, we study the setup where the transmitted word belongs to a single-deletion-correcting code and there are t deletions in every channel. Under this paradigm, we study the minimum number of different channel outputs in order to construct a successful decoder.

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删除通道上的序列重建

序列重建问题首先由Levenshtein提出，该问题建立了一个模型，其中来自某一集合的序列通过几个独立的信道传输，解码器接收来自每个信道的输出。感兴趣的主要问题是确定重建传输序列所需的最小信道数。在组合的情况下，这个问题相当于找到两个半径为t的球之间的最大交集，它们的中心之间的距离至少为d。这个问题的设置之前已经研究了几种误差度量，如Hamming度量，Kendall-tau度量和Johnson度量。在本文中，我们扩展了Levenshtein在缺失通道上重构序列的研究。虽然他解决了传输词可以是任意的情况，但我们研究了传输词属于单个删除纠正码并且每个通道中有t个删除的设置。在这种模式下，我们研究了不同信道输出的最小数量，以构建一个成功的解码器。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 IEEE International Symposium on Information Theory (ISIT)

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