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Delay and queue aware adaptive scheduling-based MAC protocol for underwater acoustic sensor networks

Delay and queue aware adaptive scheduling-based MAC protocol for underwater acoustic sensor networks
Delay and queue aware adaptive scheduling-based MAC protocol for underwater acoustic sensor networks
This paper mainly investigates the application of underwater acoustic sensor networks (UASNs), which are characterized by large-scale, sparse distribution, and varying traffic loads. Since the underwater acoustic channel is known for limited bandwidth, time variation, and long propagation delays, the strategy to access the common communication medium is required to improve the performance of UASNs. This paper proposes a delay and queue aware adaptive scheduling-based medium access control (DQA-MAC) protocol for UASNs. It combines adaptive scheduling transmission, reduction of handshaking packets, and concurrent transmission with the propose of improving the performance of network throughput, shortening end-to-end delay, reducing average energy consumption, and enhancing the fairness of transmission. Data transmission time is scheduled based on the information of propagation delays and the number of data packets waiting in each node queue. Furthermore, the strategy of concurrent transmission is implemented to leverage the long propagation delays. At last, reducing the number of handshaking packets is achieved with the approach of exchanging information by specially designed packets frames. The simulation results show that the proposed protocol outperforms the related traditional protocols in networks with varying traffic loads.
Underwater acoustic sensor networks, propagation delay, medium access control, collision avoidance, concurrent transmission
2169-3536
56263-56275
Zhuo, Xiaoxiao
60b38d82-0487-418a-b9da-c12fa1e395de
Qu, Fengzhong
63ae6e65-c0de-4300-9f35-1d20101787e2
Yang, Hong
ddceb36c-582d-4ed1-9ce1-382a667fa634
Wei, Yan
f53a5061-105c-4a52-a224-442c69db13f3
Wu, Yezhou
79a685fa-5453-49ab-836b-1c499b5d1f4e
Li, Jianghui
9c589194-00fa-4d42-abaf-53a32789cc5e
Zhuo, Xiaoxiao
60b38d82-0487-418a-b9da-c12fa1e395de
Qu, Fengzhong
63ae6e65-c0de-4300-9f35-1d20101787e2
Yang, Hong
ddceb36c-582d-4ed1-9ce1-382a667fa634
Wei, Yan
f53a5061-105c-4a52-a224-442c69db13f3
Wu, Yezhou
79a685fa-5453-49ab-836b-1c499b5d1f4e
Li, Jianghui
9c589194-00fa-4d42-abaf-53a32789cc5e

Zhuo, Xiaoxiao, Qu, Fengzhong, Yang, Hong, Wei, Yan, Wu, Yezhou and Li, Jianghui (2019) Delay and queue aware adaptive scheduling-based MAC protocol for underwater acoustic sensor networks. IEEE Access, 7, 56263-56275. (doi:10.1109/ACCESS.2019.2913209).

Record type: Article

Abstract

This paper mainly investigates the application of underwater acoustic sensor networks (UASNs), which are characterized by large-scale, sparse distribution, and varying traffic loads. Since the underwater acoustic channel is known for limited bandwidth, time variation, and long propagation delays, the strategy to access the common communication medium is required to improve the performance of UASNs. This paper proposes a delay and queue aware adaptive scheduling-based medium access control (DQA-MAC) protocol for UASNs. It combines adaptive scheduling transmission, reduction of handshaking packets, and concurrent transmission with the propose of improving the performance of network throughput, shortening end-to-end delay, reducing average energy consumption, and enhancing the fairness of transmission. Data transmission time is scheduled based on the information of propagation delays and the number of data packets waiting in each node queue. Furthermore, the strategy of concurrent transmission is implemented to leverage the long propagation delays. At last, reducing the number of handshaking packets is achieved with the approach of exchanging information by specially designed packets frames. The simulation results show that the proposed protocol outperforms the related traditional protocols in networks with varying traffic loads.

Text
08698756 - Accepted Manuscript
Available under License Creative Commons Attribution.
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More information

Accepted/In Press date: 18 April 2019
e-pub ahead of print date: 25 April 2019
Published date: 9 May 2019
Keywords: Underwater acoustic sensor networks, propagation delay, medium access control, collision avoidance, concurrent transmission

Identifiers

Local EPrints ID: 430774
URI: http://eprints.soton.ac.uk/id/eprint/430774
DOI: doi:10.1109/ACCESS.2019.2913209
ISSN: 2169-3536
PURE UUID: f0303a91-d085-4889-8e9a-5cad1c39baeb
ORCID for Jianghui Li: ORCID iD orcid.org/0000-0002-2956-5940

Catalogue record

Date deposited: 10 May 2019 16:30
Last modified: 05 Jun 2024 19:52

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Contributors

Author: Xiaoxiao Zhuo
Author: Fengzhong Qu
Author: Hong Yang
Author: Yan Wei
Author: Yezhou Wu
Author: Jianghui Li ORCID iD

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