Sequential Decoding of Polar Codes

Miloslavskaya, Vera; Trifonov, Peter

doi:10.1109/lcomm.2014.2323237

Cited by 69 publications

(69 citation statements)

References 7 publications

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“…with BEC scaling exponent µ(K 1 ) = 3.346 [8]. Furthermore, to minimize the size of decoding windows, we derived another kernel K 2 = P σ K 1 , were P σ is a permutation matrix corresponding to permutation σ = [0, 1, 2, 7, 3, 4, 5, 6,9,10,11,12,8,13,14,15], with scaling exponent µ(K 2 ) = 3.45. Both kernels have polarization rate 0.51828.…”

Section: Efficient Processing Of 16 × 16 Kernelsmentioning

confidence: 99%

Efficient decoding of polar codes with some 16×16 kernels

Trofimiuk

Trifonov

2018

2018 IEEE Information Theory Workshop (ITW)

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A decoding algorithm for polar codes with binary 16 × 16 kernels with polarization rate 0.51828 and scaling exponents 3.346 and 3.450 is presented. The proposed approach exploits the relationship of the considered kernels and the Arikan matrix to significantly reduce the decoding complexity without any performance loss. Simulation results show that polar (sub)codes with 16 × 16 kernels can outperform polar codes with Arikan kernel, while having lower decoding complexity.

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Section: Efficient Processing Of 16 × 16 Kernelsmentioning

confidence: 99%

Efficient decoding of polar codes with some 16×16 kernels

Trofimiuk

Trifonov

2018

2018 IEEE Information Theory Workshop (ITW)

View full text Add to dashboard Cite

show abstract

“…It was shown in [6] that the average decoding complexity can be significantly reduced at the cost of negligible performance loss if one defines path score as…”

Section: Sequential Decoding Of Polar Codesmentioning

confidence: 99%

“…Let us consider the case of sequential decoding algorithm [6], discussed in Section II-B. The idea of this approach remains valid in the case of codes over F 2 m .…”

Section: B Sequential Successive Cancellation Decodingmentioning

confidence: 99%

“…Error probabilities P ′ j can be evaluated using gaussian approximation techniques [6]. In the case of transmission of the binary image of the code over a memoryless channel one obtains 1−P ′ j = (1−P j ) m , where P j is the error probability in the j-th subchannel of the polarizing transformation in the case of binary-input channel, which can be computed using density evolution [10] or Gaussian approximation [11].…”

Section: B Sequential Successive Cancellation Decodingmentioning

confidence: 99%

“…The proposed method exploits representation of Reed-Solomon codes as polar codes [4] with dynamic frozen symbols [5]. This enables application of efficient sequential soft-decision decoding techniques developed in the area of polar coding [6]. Furthermore, permutation decoding techniques are utilized in order to reduce the average number of iterations performed by the sequential decoder.…”

Section: Introductionmentioning

confidence: 99%

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