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Main Authors: Chen, Chin-Hung, Karanov, Boris, van Houtom, Wim, Wu, Yan, Alvarado, Alex
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2412.07911
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author Chen, Chin-Hung
Karanov, Boris
van Houtom, Wim
Wu, Yan
Alvarado, Alex
author_facet Chen, Chin-Hung
Karanov, Boris
van Houtom, Wim
Wu, Yan
Alvarado, Alex
contents It has been recognized that the impulsive noise (IN) generated by power devices poses significant challenges to wireless receivers. In this paper, we comprehensively assess the achievable information rate (AIR) for the well-established Markov-Middleton IN model with a phase-shift keying (PSK) input sequence across various channel conditions, including matched and mismatched decoding scenarios. Upon determining information-theoretic bounds, we propose an optimal turbo-differentially encoded (DE)-PSK-IN receiver design based on a commonly used commercial transmission setup consisting of a convolutional encoder, bit-level interleaver, and a DE-PSK symbol mapper. We show that by incorporating the differential decoder into the maximum a-posteriori-based (MAP) IN detector, we can significantly enhance the receiver performance with a 4.5 dB gain compared to the conventional MAP-based turbo-PSK-IN receiver and a gap of around 1 dB to the theoretical bounds. We also propose a suboptimal separate receiver design that can be implemented with half the complexity of the joint design and near-optimal performance. We have evaluated the performance of the proposed receiver designs through extensive simulations, demonstrating their effectiveness in real-world scenarios with limited interleaver depth and mismatched state implementation.
format Preprint
id arxiv_https___arxiv_org_abs_2412_07911
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Turbo Receiver Design for Differentially Encoded PSK in Bursty Impulsive Noise Channels
Chen, Chin-Hung
Karanov, Boris
van Houtom, Wim
Wu, Yan
Alvarado, Alex
Information Theory
Signal Processing
It has been recognized that the impulsive noise (IN) generated by power devices poses significant challenges to wireless receivers. In this paper, we comprehensively assess the achievable information rate (AIR) for the well-established Markov-Middleton IN model with a phase-shift keying (PSK) input sequence across various channel conditions, including matched and mismatched decoding scenarios. Upon determining information-theoretic bounds, we propose an optimal turbo-differentially encoded (DE)-PSK-IN receiver design based on a commonly used commercial transmission setup consisting of a convolutional encoder, bit-level interleaver, and a DE-PSK symbol mapper. We show that by incorporating the differential decoder into the maximum a-posteriori-based (MAP) IN detector, we can significantly enhance the receiver performance with a 4.5 dB gain compared to the conventional MAP-based turbo-PSK-IN receiver and a gap of around 1 dB to the theoretical bounds. We also propose a suboptimal separate receiver design that can be implemented with half the complexity of the joint design and near-optimal performance. We have evaluated the performance of the proposed receiver designs through extensive simulations, demonstrating their effectiveness in real-world scenarios with limited interleaver depth and mismatched state implementation.
title Turbo Receiver Design for Differentially Encoded PSK in Bursty Impulsive Noise Channels
topic Information Theory
Signal Processing
url https://arxiv.org/abs/2412.07911