Design of polar coded 64-QAM

Chen, Peiyao; Xu, Minzi; Bai, Baoming; Ma, Xiao

doi:10.1109/istc.2016.7593115

Cited by 23 publications

(10 citation statements)

References 9 publications

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“…When larger constellations are used, as envisaged by 5G standard, polar-coded modulation (PCM) [49] can be used to fully exploit the polarization effect at higher-order modulation [50]. However, canonical PCM requires an additional polarization matrix whose size depends on the modulation scheme used [51], resulting in an increased decoding latency [52].…”

Section: E Polar Coded Modulationmentioning

confidence: 99%

Design of Polar Codes in 5G New Radio

Bioglio

Condo

Land

2021

IEEE Commun. Surv. Tutorials

220

107

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Polar codes have attracted the attention of academia and industry alike in the past decade, such that the 5 th generation wireless systems (5G) standardization process of the 3 rd generation partnership project (3GPP) chose polar codes as a channel coding scheme. In this tutorial, we provide a description of the encoding process of polar codes adopted by the 5G standard. We illustrate the struggles of designing a family of polar codes able to satisfy the demands of 5G systems, with particular attention to rate flexibility and low decoding latency. The result of these efforts is an elaborate framework that applies novel coding techniques to provide a solid channel code for NR requirements.

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Section: E Polar Coded Modulationmentioning

confidence: 99%

Design of Polar Codes in 5G New Radio

Bioglio

Condo

Land

2021

IEEE Commun. Surv. Tutorials

220

107

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“…SC algorithm, which decodes each bit in a successive manner, is usually employed and proposed as sub-optimal approach. By taking advantage of the polarization effect, polar codes can achieve the symmetric capacity of binary memoryless channels with low complexity SC decoding strategy [1]. Being fundamental for all the later advanced decoders that exhibit superior performance, one cannot avoid having an SC decoder.…”

Section: The Native Decodingmentioning

confidence: 99%

“…Recently, polar codes were proven to be capacity achieving for binary discrete memoryless channel (B-DMC). Combined with high order modulation, polar code is powerful candidate for the next generation mobile standard, where high transmission power efficiency and bandwidth efficiency are required [1]. Fortunately, both polar encoding and decoding are of low complexity, so need minimum time and space, and this match green energy requirement [2].…”

Section: Introductionmentioning

confidence: 99%

Study of the operational SNR while constructing polar codes

Benkhouya¹,

Chana²,

Hadi³

2020

IJECE

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Channel coding is commonly based on protecting information to be communicated across an unreliable medium, by adding patterns of redundancy into the transmission path. Also referred to as forward error control coding (FECC), the technique is widely used to enable correcting or at least detecting bit errors in digital communication systems. In this paper we study an original FECC known as polar coding which has proven to meet the typical use cases of the next generation mobile standard. This work is motivated by the suitability of polar codes for the new coming wireless era. Hence, we investigate the performance of polar codes in terms of bit error rate (BER) for several codeword lengths and code rates. We first perform a discrete search to find the best operating signal-to-noise ratio (SNR) at two different code rates, while varying the blocklength. We find in our extensive simulations that the BER becomes more sensitive to operating SNR (OSNR) as long as we increase the blocklength and code rate. Finally, we note that increasing blocklength achieves an SNR gain, while increasing code rate changes the OSNR domain. This trade-off sorted out must be taken into consideration while designing polar codes for high-throughput application.

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“…In addition, an adaptive list decoder is introduced to efficiently decode polar codes under MLC. For BICM, compound polar codes [4,5] are employed for 64 quadrature amplitude modulation (QAM). A novel channel mapping scheme is proposed for BICM, and compound polar codes are constructed based on the scheme.…”

mentioning

confidence: 99%

“…The proposed adaptive decoder exhibits guaranteed BLER performance and lower average decoding complexity (shown in Appendix D). Proposed BICM, SC Monte Carlo, SC [4] Proposed BICM, CASCL=16 Proposed BICM, CASCL=32 BICM scheme in [5], CASCL=32 Polar codes under BICM. The BICM system model in [6] is employed and a novel channel mapping algorithm is proposed for polar code construction under 2 m -ary BICM with Gray labeling.…”

mentioning

confidence: 99%