Elad Marciano scite author profile

The problem of low complexity, close to optimal, channel decoding of linear codes with short to moderate block length is considered. It is shown that deep learning methods can be used to improve a standard belief propagation decoder, despite the large example space. Similar improvements are obtained for the min-sum algorithm. It is also shown that tying the parameters of the decoders across iterations, so as to form a recurrent neural network architecture, can be implemented with comparable results. The advantage is that significantly less parameters are required. We also introduce a recurrent neural decoder architecture based on the method of successive relaxation. Improvements over standard belief propagation are also observed on sparser Tanner graph representations of the codes. Furthermore, we demonstrate that the neural belief propagation decoder can be used to improve the performance, or alternatively reduce the computational complexity, of a close to optimal decoder of short BCH codes.

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RNN Decoding of Linear Block Codes

Nachmani¹,

Marciano²,

Burshtein³

et al. 2017

Preprint

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Near Maximum Likelihood Decoding with Deep Learning

Nachmani¹,

Yaron²,

Marciano³

et al. 2018

Preprint

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Elad Marciano

Deep Learning Methods for Improved Decoding of Linear Codes

RNN Decoding of Linear Block Codes

Near Maximum Likelihood Decoding with Deep Learning

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