We study the adversarial torn-paper channel. This problem is motivated by applications in DNA data storage where the DNA strands that carry information may break into smaller pieces which are received out of order. Our model extends the previously researched probabilistic setting to the worst-case. We develop code constructions for any parameters of the channel for which non-vanishing asymptotic rate is possible and show our constructions achieve asymptotically optimal rate while allowing for efficient encoding and decoding. Finally, we extend our results to related settings included multi-strand storage, presence of substitution errors, or incomplete coverage.
翻译:我们研究对立的撕破纸通道。 这个问题的起因是DNA数据存储中的应用, DNA数据存储中含有信息的DNA链条可能会破碎成小块, 这些小块接收到的异常。 我们的模型将先前研究的概率环境扩展至最坏的情况。 我们为该通道中可能出现非衰减的无药率的任何参数制定代码结构, 并显示我们的构造在允许高效编码和解码的同时实现了无药可治的最佳速度。 最后, 我们的结果扩大到相关的设置, 包括多层存储、 存在替代错误或覆盖不完整。
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