Noisy Deletion, Markov Codes and Deep Decoding

2020 National Conference on Communications (NCC) Pub Date : 2020-02-01 DOI:10.1109/NCC48643.2020.9056064
Avijit Mandal, Avhishek Chatterjee, A. Thangaraj
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引用次数: 1

Abstract

Motivated by the classical synchronization problem and emerging applications in bioinformatics, we study noisy deletion channels in a regime of practical interest: short code length, low decoding complexity and low SNR. Our work is inspired by an important insight from information theory and Markov chains: appropriately parametrized Markov codewords can correct deletions and errors (due to noise) simultaneously. We extend this idea to practice by developing a low complexity decoder for short Markov codes, which displays competitive performance in simulations at low SNRs. Our decoder design combines the sequence prediction capability of recurrent neural networks with the assured performance of maximum a posteriori (MAP) decoders like the BCJR decoder.
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噪声删除,马尔可夫码和深度解码
受经典同步问题和生物信息学新兴应用的启发,我们研究了具有实际意义的短码长、低解码复杂度和低信噪比的噪声删除信道。我们的工作受到信息论和马尔可夫链的重要见解的启发:适当的参数化马尔可夫码字可以同时纠正删除和错误(由于噪声)。我们通过开发短马尔可夫码的低复杂度解码器将这一想法扩展到实践中,该解码器在低信噪比的模拟中显示出具有竞争力的性能。我们的解码器设计结合了循环神经网络的序列预测能力和最大后验(MAP)解码器(如BCJR解码器)的保证性能。
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2020 National Conference on Communications (NCC)
2020 National Conference on Communications (NCC)
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