Spiking Neural Belief Propagation Decoder for Short Block Length LDPC Codes

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Oct 15, 2024
Alexander von Bank, Eike-Manuel Edelmann, Sisi Miao, Jonathan Mandelbaum, Laurent Schmalen
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Spiking neural networks (SNNs) are neural networks that enable energy-efficient signal processing due to their event-based nature. This paper proposes a novel decoding algorithm for low-density parity-check (LDPC) codes that integrates SNNs into belief propagation (BP) decoding by approximating the check node update equations using SNNs. For the (273,191) and (1023,781) finite-geometry LDPC code, the proposed decoder outperforms sum-product decoder at high signal-to-noise ratios (SNRs). The decoder achieves a similar bit error rate to normalized sum-product decoding with successive relaxation. Furthermore, the novel decoding operates without requiring knowledge of the SNR, making it robust to SNR mismatch.

* Submitted to Communication Letters  
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