New structure of channel coding: serial concatenation of Polar codes
In this paper, we introduce a new coding and decoding structure for enhancing the reliability and performance of polar codes, specifically at low error rates. We achieve this by concatenating two polar codes in series to create robust error-correcting codes. The primary objective here is to optimize...
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Zusammenfassung: | In this paper, we introduce a new coding and decoding structure for enhancing
the reliability and performance of polar codes, specifically at low error
rates. We achieve this by concatenating two polar codes in series to create
robust error-correcting codes. The primary objective here is to optimize the
behavior of individual elementary codes within polar codes. In this structure,
we incorporate interleaving, a technique that rearranges bits to maximize the
separation between originally neighboring symbols. This rearrangement is
instrumental in converting error clusters into distributed errors across the
entire sequence. To evaluate their performance, we proposed to model a
communication system with seven components: an information source, a channel
encoder, a modulator, a channel, a demodulator, a channel decoder, and a
destination. This work focuses on evaluating the bit error rate (BER) of codes
for different block lengths and code rates. Next, we compare the bit error rate
(BER) performance between our proposed method and polar codes. |
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DOI: | 10.48550/arxiv.2311.02625 |