Revisiting Non-Coherent Detection of Differential PSK: A Factor Graph Perspective

Long Shi; Taotao Wang; Zhen Mei; Jun Li; Xiang Gen Xia

doi:10.1109/LCOMM.2022.3231920

Revisiting Non-Coherent Detection of Differential PSK: A Factor Graph Perspective

Long Shi, Taotao Wang^*, Zhen Mei^*, Jun Li, Xiang Gen Xia

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

For non-coherent differential modulated communications, the multiple-symbol differential detection (MSDD) may approach the coherent detection performance by jointly detecting a block of symbols. However, MSDD cannot support large-size block detection due to its complexity exponentially increasing with the block size. Moreover, MSDD assumes that the channel phase is constant over the symbols in a block, which is not realistic. In this letter, we propose to formulate the signal model of non-coherent differential modulated communications by means of a factor graph. Based on the factor graph, we develop a sum-product message-passing algorithm to enable the maximum a posteriori probability detection. Compared with MSDD, the detection complexity of our proposed scheme is linearly proportional to the block size. Simulation results show that the proposed scheme can not only achieve the performance of MSDD over the constant-phase channel, but also outperform it over the random-walk phase channel.

Original language	English
Pages (from-to)	701-705
Number of pages	5
Journal	IEEE Communications Letters
Volume	27
Issue number	2
DOIs	https://doi.org/10.1109/LCOMM.2022.3231920
Publication status	Published - 1 Feb 2023
Externally published	Yes

Keywords

Differential PSK
factor graph
non-coherent detection
sum-product message passing

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10.1109/LCOMM.2022.3231920

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title = "Revisiting Non-Coherent Detection of Differential PSK: A Factor Graph Perspective",

abstract = "For non-coherent differential modulated communications, the multiple-symbol differential detection (MSDD) may approach the coherent detection performance by jointly detecting a block of symbols. However, MSDD cannot support large-size block detection due to its complexity exponentially increasing with the block size. Moreover, MSDD assumes that the channel phase is constant over the symbols in a block, which is not realistic. In this letter, we propose to formulate the signal model of non-coherent differential modulated communications by means of a factor graph. Based on the factor graph, we develop a sum-product message-passing algorithm to enable the maximum a posteriori probability detection. Compared with MSDD, the detection complexity of our proposed scheme is linearly proportional to the block size. Simulation results show that the proposed scheme can not only achieve the performance of MSDD over the constant-phase channel, but also outperform it over the random-walk phase channel.",

keywords = "Differential PSK, factor graph, non-coherent detection, sum-product message passing",

author = "Long Shi and Taotao Wang and Zhen Mei and Jun Li and Xia, {Xiang Gen}",

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AU - Shi, Long

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AU - Mei, Zhen

AU - Li, Jun

AU - Xia, Xiang Gen

PY - 2023/2/1

Y1 - 2023/2/1

N2 - For non-coherent differential modulated communications, the multiple-symbol differential detection (MSDD) may approach the coherent detection performance by jointly detecting a block of symbols. However, MSDD cannot support large-size block detection due to its complexity exponentially increasing with the block size. Moreover, MSDD assumes that the channel phase is constant over the symbols in a block, which is not realistic. In this letter, we propose to formulate the signal model of non-coherent differential modulated communications by means of a factor graph. Based on the factor graph, we develop a sum-product message-passing algorithm to enable the maximum a posteriori probability detection. Compared with MSDD, the detection complexity of our proposed scheme is linearly proportional to the block size. Simulation results show that the proposed scheme can not only achieve the performance of MSDD over the constant-phase channel, but also outperform it over the random-walk phase channel.

AB - For non-coherent differential modulated communications, the multiple-symbol differential detection (MSDD) may approach the coherent detection performance by jointly detecting a block of symbols. However, MSDD cannot support large-size block detection due to its complexity exponentially increasing with the block size. Moreover, MSDD assumes that the channel phase is constant over the symbols in a block, which is not realistic. In this letter, we propose to formulate the signal model of non-coherent differential modulated communications by means of a factor graph. Based on the factor graph, we develop a sum-product message-passing algorithm to enable the maximum a posteriori probability detection. Compared with MSDD, the detection complexity of our proposed scheme is linearly proportional to the block size. Simulation results show that the proposed scheme can not only achieve the performance of MSDD over the constant-phase channel, but also outperform it over the random-walk phase channel.

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Revisiting Non-Coherent Detection of Differential PSK: A Factor Graph Perspective

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Keywords

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