CS-MAC: A concurrent scheduling MAC protocol for underwater acoustic networks

Neural Networks, Information and Communication Engineering Pub Date : 2022-06-30 DOI:10.1117/12.2639195

Yi Shang, Xiujuan Du

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Abstract

Aiming at the characteristics of underwater acoustic networks such as long delay, low channel utilization and low throughput, as well as the existence of temporal-spatial uncertainties and hidden terminals problem, this paper proposes a concurrent scheduling MAC protocol. The protocol exchanges information such as ID, location, level of the receiving and sending nodes, and the scheduling time of data reception by sending handshake control frames. so as to realize the concurrent transmission of data from multiple sending nodes to one receiving node, which not only avoids data collision to a great extent, but also effectively solves the problems of temporal-spatial uncertainties, hidden terminals and and high energy consumption and other problems in Underwater Acoustic Networks, and improve the fairness of node channel access. Network performance such as channel utilization and network throughput. The simulation results shows that the network throughput of CS-MAC protocol is better than ALOHA, R-MAC, and slotted- FAMA, etc. CS-MAC protocol outperforms ALOHA and LSPB-MAC protocols in terms of packet delivery rate and end-to-end delay.

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CS-MAC:一种用于水声网络的并发调度MAC协议

针对水声网络时延长、信道利用率低、吞吐量低的特点，以及存在时空不确定性和终端隐藏问题，提出了一种并发调度的MAC协议。协议通过发送握手控制帧来交换接收和发送节点的ID、位置、级别、数据接收调度时间等信息。实现数据从多个发送节点并发传输到一个接收节点，不仅在很大程度上避免了数据冲突，而且有效解决了水声网络中存在的时空不确定性、终端隐藏和高能耗等问题，提高了节点信道接入的公平性。网络性能，如信道利用率和网络吞吐量。仿真结果表明，CS-MAC协议的网络吞吐量优于ALOHA、R-MAC和slotted- FAMA等协议。CS-MAC协议在数据包传输速率和端到端延迟方面优于ALOHA和LSPB-MAC协议。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Neural Networks, Information and Communication Engineering

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