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Main Authors: Di Giusto, Andrea, van Houtum, Wim, Ravagnani, Alberto, Wu, Yan
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2504.13740
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author Di Giusto, Andrea
van Houtum, Wim
Ravagnani, Alberto
Wu, Yan
author_facet Di Giusto, Andrea
van Houtum, Wim
Ravagnani, Alberto
Wu, Yan
contents Motivated by applications to digital audio broadcasting (DAB) systems, we study the a-posteriori probabilities (APPs) of the coded and information bits of the serial concatenation of multiple convolutional codewords. The main result of this correspondence is a proof that the APPs of the input bits do not change when considering the concatenation of multiple codewords as a received sequence. This is a purely theoretical result, which remains valid for every convolutional code, as long as the encoder goes back to the zero state at the end of each codeword. An equivalent heuristic for serial concatenation in Viterbi decoding is described. The applicability of our result to DAB systems, where interleaving and modulation are accounted for, is investigated through Matlab simulations. We show that the Bit Error Rate (BER) of the simulated DAB system does not change when decoding multiple transmitted codewords as one serially concatenated sequence, even when considering all the features of a DAB system.
format Preprint
id arxiv_https___arxiv_org_abs_2504_13740
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Equivalence of Serial and Parallel A-Posteriori Probabilities in the Decoding of DAB Systems
Di Giusto, Andrea
van Houtum, Wim
Ravagnani, Alberto
Wu, Yan
Information Theory
Motivated by applications to digital audio broadcasting (DAB) systems, we study the a-posteriori probabilities (APPs) of the coded and information bits of the serial concatenation of multiple convolutional codewords. The main result of this correspondence is a proof that the APPs of the input bits do not change when considering the concatenation of multiple codewords as a received sequence. This is a purely theoretical result, which remains valid for every convolutional code, as long as the encoder goes back to the zero state at the end of each codeword. An equivalent heuristic for serial concatenation in Viterbi decoding is described. The applicability of our result to DAB systems, where interleaving and modulation are accounted for, is investigated through Matlab simulations. We show that the Bit Error Rate (BER) of the simulated DAB system does not change when decoding multiple transmitted codewords as one serially concatenated sequence, even when considering all the features of a DAB system.
title Equivalence of Serial and Parallel A-Posteriori Probabilities in the Decoding of DAB Systems
topic Information Theory
url https://arxiv.org/abs/2504.13740