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Analyzing the Performance of Multi-hop Underwater Acoustic Sensor Networks

Multi-hop underwater acoustic sensor networks constrain the performance of medium access control protocols. The efficiency of the well-known RTS-CTS scheme is degraded due to long propagation delays of such networks. Recently, interest in Aloha variants has surfaced; however, the performance of such...

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Main Authors:	Gibson, John H., Xie, Geoffrey G., Xiao, Yang, Chen, Hui
Format:	Conference Proceeding
Language:	English
Subjects:	Access protocols Acoustic sensors Aloha Protocol Degradation Media Access Protocol Medium Access Control Network topology Performance analysis Propagation delay Proposals Spread spectrum communication Underwater Acoustic Network Underwater acoustics
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creator	Gibson, John H. Xie, Geoffrey G. Xiao, Yang Chen, Hui
description	Multi-hop underwater acoustic sensor networks constrain the performance of medium access control protocols. The efficiency of the well-known RTS-CTS scheme is degraded due to long propagation delays of such networks. Recently, interest in Aloha variants has surfaced; however, the performance of such protocols within the context of multi-hop networks is not well studied. In this paper, we identify the challenges of modeling contention-based medium access control protocols and present a model for analyzing Aloha variants for a simple string topology as a first step toward analyzing the performance of contention-based proposals in multi-hop underwater acoustic sensor networks. An application of the model suggests that Aloha variants are vary sensitive to traffic loads and network size.
doi_str_mv	10.1109/OCEANSE.2007.4302367
format	conference_proceeding
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Access protocols Acoustic sensors Aloha Protocol Degradation Media Access Protocol Medium Access Control Network topology Performance analysis Propagation delay Proposals Spread spectrum communication Underwater Acoustic Network Underwater acoustics
title	Analyzing the Performance of Multi-hop Underwater Acoustic Sensor Networks
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