Self-interference characterization for in-band full duplex underwater acoustic communications

Zheng Guo; Aijun Song; Mohammad Towliat; Leonard J. Cimini; Xiang Gen Xia; Chien Chung Shen

doi:10.1145/3366486.3366510

Self-interference characterization for in-band full duplex underwater acoustic communications

Zheng Guo, Aijun Song, Mohammad Towliat, Leonard J. Cimini, Xiang Gen Xia, Chien Chung Shen

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

3 Citations (Scopus)

Abstract

In-band full duplex (IBFD) communications attracts increasing attention in the underwater acoustic communication community due to its potential to increase spectral efficiency. The suppression of the self-interference remains the main obstacle to achieve IBFD in the ocean. Limited work in the literature has been done to characterize the self-interference in underwater acoustics. Here we analyze the characteristics of the self-interference based on the fieldwork, where self-interference measurements have been collected for multiple acoustic frequencies ranging from 20 to 180 kHz. The interference cancellation (IC) gain, as the performance metric of the digital self-interference suppression, is found to decrease when the acoustic carrier frequency increases. We propose to use the channel variation ratio (CVR) to characterize channel variability. Experimental results show that the CVR is larger at higher acoustic frequencies and high CVRs lead to the performance degradation in the self-interference suppression. Computer simulations have also been conducted to explain the experimental observations.

Original language	English
Title of host publication	Proceedings of the International Conference on Underwater Networks and Systems, WUWNET 2019
Publisher	Association for Computing Machinery
ISBN (Electronic)	9781450377409
DOIs	https://doi.org/10.1145/3366486.3366510
Publication status	Published - 23 Oct 2019
Externally published	Yes
Event	2019 International Conference on Underwater Networks and Systems, WUWNET 2019 - Atlanta, United States Duration: 23 Oct 2019 → 25 Oct 2019

Publication series

Name	ACM International Conference Proceeding Series

Conference

Conference	2019 International Conference on Underwater Networks and Systems, WUWNET 2019
Country/Territory	United States
City	Atlanta
Period	23/10/19 → 25/10/19

Keywords

Channel variation
In-band full duplex (IBFD)
Self-interference characterization
Underwater acoustic communications

Access to Document

10.1145/3366486.3366510

Cite this

Guo, Z., Song, A., Towliat, M., Cimini, L. J., Xia, X. G., & Shen, C. C. (2019). Self-interference characterization for in-band full duplex underwater acoustic communications. In Proceedings of the International Conference on Underwater Networks and Systems, WUWNET 2019 Article a16 (ACM International Conference Proceeding Series). Association for Computing Machinery. https://doi.org/10.1145/3366486.3366510

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title = "Self-interference characterization for in-band full duplex underwater acoustic communications",

abstract = "In-band full duplex (IBFD) communications attracts increasing attention in the underwater acoustic communication community due to its potential to increase spectral efficiency. The suppression of the self-interference remains the main obstacle to achieve IBFD in the ocean. Limited work in the literature has been done to characterize the self-interference in underwater acoustics. Here we analyze the characteristics of the self-interference based on the fieldwork, where self-interference measurements have been collected for multiple acoustic frequencies ranging from 20 to 180 kHz. The interference cancellation (IC) gain, as the performance metric of the digital self-interference suppression, is found to decrease when the acoustic carrier frequency increases. We propose to use the channel variation ratio (CVR) to characterize channel variability. Experimental results show that the CVR is larger at higher acoustic frequencies and high CVRs lead to the performance degradation in the self-interference suppression. Computer simulations have also been conducted to explain the experimental observations.",

keywords = "Channel variation, In-band full duplex (IBFD), Self-interference characterization, Underwater acoustic communications",

author = "Zheng Guo and Aijun Song and Mohammad Towliat and Cimini, {Leonard J.} and Xia, {Xiang Gen} and Shen, {Chien Chung}",

note = "Publisher Copyright: {\textcopyright} 2019 ACM.; 2019 International Conference on Underwater Networks and Systems, WUWNET 2019 ; Conference date: 23-10-2019 Through 25-10-2019",

year = "2019",

month = oct,

day = "23",

doi = "10.1145/3366486.3366510",

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Guo, Z, Song, A, Towliat, M, Cimini, LJ, Xia, XG & Shen, CC 2019, Self-interference characterization for in-band full duplex underwater acoustic communications. in Proceedings of the International Conference on Underwater Networks and Systems, WUWNET 2019., a16, ACM International Conference Proceeding Series, Association for Computing Machinery, 2019 International Conference on Underwater Networks and Systems, WUWNET 2019, Atlanta, United States, 23/10/19. https://doi.org/10.1145/3366486.3366510

Self-interference characterization for in-band full duplex underwater acoustic communications. / Guo, Zheng; Song, Aijun; Towliat, Mohammad et al.
Proceedings of the International Conference on Underwater Networks and Systems, WUWNET 2019. Association for Computing Machinery, 2019. a16 (ACM International Conference Proceeding Series).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Self-interference characterization for in-band full duplex underwater acoustic communications

AU - Guo, Zheng

AU - Song, Aijun

AU - Towliat, Mohammad

AU - Cimini, Leonard J.

AU - Xia, Xiang Gen

AU - Shen, Chien Chung

PY - 2019/10/23

Y1 - 2019/10/23

N2 - In-band full duplex (IBFD) communications attracts increasing attention in the underwater acoustic communication community due to its potential to increase spectral efficiency. The suppression of the self-interference remains the main obstacle to achieve IBFD in the ocean. Limited work in the literature has been done to characterize the self-interference in underwater acoustics. Here we analyze the characteristics of the self-interference based on the fieldwork, where self-interference measurements have been collected for multiple acoustic frequencies ranging from 20 to 180 kHz. The interference cancellation (IC) gain, as the performance metric of the digital self-interference suppression, is found to decrease when the acoustic carrier frequency increases. We propose to use the channel variation ratio (CVR) to characterize channel variability. Experimental results show that the CVR is larger at higher acoustic frequencies and high CVRs lead to the performance degradation in the self-interference suppression. Computer simulations have also been conducted to explain the experimental observations.

AB - In-band full duplex (IBFD) communications attracts increasing attention in the underwater acoustic communication community due to its potential to increase spectral efficiency. The suppression of the self-interference remains the main obstacle to achieve IBFD in the ocean. Limited work in the literature has been done to characterize the self-interference in underwater acoustics. Here we analyze the characteristics of the self-interference based on the fieldwork, where self-interference measurements have been collected for multiple acoustic frequencies ranging from 20 to 180 kHz. The interference cancellation (IC) gain, as the performance metric of the digital self-interference suppression, is found to decrease when the acoustic carrier frequency increases. We propose to use the channel variation ratio (CVR) to characterize channel variability. Experimental results show that the CVR is larger at higher acoustic frequencies and high CVRs lead to the performance degradation in the self-interference suppression. Computer simulations have also been conducted to explain the experimental observations.

KW - Channel variation

KW - In-band full duplex (IBFD)

KW - Self-interference characterization

KW - Underwater acoustic communications

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Guo Z, Song A, Towliat M, Cimini LJ, Xia XG, Shen CC. Self-interference characterization for in-band full duplex underwater acoustic communications. In Proceedings of the International Conference on Underwater Networks and Systems, WUWNET 2019. Association for Computing Machinery. 2019. a16. (ACM International Conference Proceeding Series). doi: 10.1145/3366486.3366510

Self-interference characterization for in-band full duplex underwater acoustic communications

Abstract

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Keywords

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