A Comparative Performance Evaluation of Distributed Collision-free MAC Protocols for Underwater Sensor Networks

F. Alfouzan, A. Shahrabi, S. Ghoreyshi, T. Boutaleb
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引用次数: 12

Abstract

The design of Medium Access Control (MAC) protocols for UWSNs poses many challenges because of their long propagation delay, high mobility, limited bandwidth, and high bit error rate. Due to these unique acoustic channel characteristics, most contention-based MAC protocols are costly. Thus, collisions and retransmissions should be efficiently handled at the MAC layer in order to reduce the energy cost and to improve throughput and fairness across the network. As a consequence, they do not perform as efficiently as their achieved performance in terrestrial networks. In this paper, we evaluate the performance of three recently reported distributed collision-free MAC protocols; namely, ED-MAC, DL-MAC, and GC-MAC under various operational conditions. An extensive simulation study is carried out to compare the performance of these MAC protocols in terms of packet delivery ratio (PDR), throughput, and energy consumption with different scenarios (narrow and shallow networks) under varying traffic rates and numbers of nodes. Our study results showed that ED-MAC reaches the best energy efficiency in a narrow scenario with a light load than DL-MAC and GC-MAC protocols. While DL-MAC is a suitable choice for both scenarios among others in terms of flexibility. In terms of reliability and scalability, GC-MAC achieves the best performance in both scenarios than other protocols.
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水下传感器网络分布式无碰撞MAC协议性能比较评价
uwsn的介质访问控制(MAC)协议由于其传输延迟长、移动性高、带宽有限、误码率高等特点,给其设计带来了诸多挑战。由于这些独特的声道特性,大多数基于争用的MAC协议都是昂贵的。因此,应该在MAC层有效地处理冲突和重传,以减少能量成本,提高整个网络的吞吐量和公平性。因此,它们的性能不如它们在地面网络中达到的性能那样有效。在本文中,我们评估了最近报道的三种分布式无冲突MAC协议的性能;即不同运行条件下的ED-MAC、DL-MAC和GC-MAC。本文进行了广泛的仿真研究,比较了这些MAC协议在不同流量速率和节点数下,在不同场景(窄网络和浅网络)下,在分组传输比(PDR)、吞吐量和能耗方面的性能。研究结果表明,与DL-MAC和GC-MAC协议相比,ED-MAC协议在负载较轻的窄场景下具有最佳的能效。而DL-MAC在灵活性方面是两种场景的合适选择。在可靠性和可扩展性方面,GC-MAC在这两种场景下的性能都是其他协议中最好的。
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