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Concatenated Forward Error Correction With KP4 and Single Parity Check Codes

Diego Lentner, Emna Ben Yacoub, Stefano Calabrò, Georg Böcherer, Nebojša Stojanović, Gerhard Kramer

2023Journal of Lightwave Technology11 citationsDOI

Abstract

Concatenated forward error correction is studied using an outer KP4 Reed-Solomon code with hard-decision decoding and inner single parity check (SPC) codes with Chase/Wagner soft-decision decoding. Analytical expressions are derived for the end-to-end frame and bit error rates for transmission over additive white Gaussian noise channels with binary phase-shift keying (BPSK) and quaternary amplitude shift keying (4-ASK), as well as with symbol interleavers and quantized channel outputs. The BPSK error rates are compared to those of two other inner codes: a two-dimensional product code with SPC component codes and an extended Hamming code. Simulation results for unit-memory inter-symbol interference channels and 4-ASK are also presented. The results show that the coding schemes achieve similar error rates, but SPC codes have the lowest complexity and permit flexible rate adaptation.

Topics & Concepts

Concatenated error correction codePhase-shift keyingAlgorithmSerial concatenated convolutional codesForward error correctionBit error rateHamming codeDecoding methodsTurbo codeAmplitude and phase-shift keyingError detection and correctionCoding gainVariable-length codeKeyingComputer scienceReed–Solomon error correctionMathematicsBlock codeTelecommunicationsAdvanced Wireless Communication TechniquesCoding theory and cryptographyError Correcting Code Techniques