Syndrome Compression for Optimal Redundancy Codes

2020 IEEE International Symposium on Information Theory (ISIT) Pub Date : 2020-06-01 DOI:10.1109/ISIT44484.2020.9174009
Jin Sima, Ryan Gabrys, Jehoshua Bruck
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引用次数: 16

Abstract

We introduce a general technique that we call syndrome compression, for designing low-redundancy error correcting codes. The technique allows us to boost the redundancy efficiency of hash/labeling-based codes by further compressing the labeling. We apply syndrome compression to different types of adversarial deletion channels and present code constructions that correct up to a constant number of errors. Our code constructions achieve the redundancy of twice the Gilbert-Varshamov bound, which improve upon the state of art for these channels. The encoding/decoding complexity of our constructions is of order equal to the size of the corresponding deletion balls, namely, it is polynomial in the code length.
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最优冗余码的证候压缩
为了设计低冗余纠错码,我们引入了一种称为“综合征压缩”的通用技术。该技术允许我们通过进一步压缩标记来提高基于哈希/标记的代码的冗余效率。我们将综合征压缩应用于不同类型的对抗性删除通道,并提出了可以纠正恒定数量错误的代码结构。我们的代码结构实现了吉尔伯特-瓦尔沙莫夫界的两倍的冗余,这改进了这些信道的技术状态。我们构造的编码/解码复杂度与相应的删除球的大小是等次的,即它是编码长度的多项式。
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2020 IEEE International Symposium on Information Theory (ISIT)
2020 IEEE International Symposium on Information Theory (ISIT)
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