Investigation of RF-based networking for underwater wireless sensor networks using dynamic cluster head selection strategy

2023 11th International Symposium on Electronic Systems Devices and Computing (ESDC) Pub Date : 2023-05-04 DOI:10.1109/ESDC56251.2023.10149879

Pavan Ganesh Pss, Nujeti Lavanya

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Abstract

Communication between two underwater wireless nodes or two underwater vehicles is possible with RF communication, provided the aspects of low transmission distance and high attenuation are taken care of in the communication system design. Notably, a cluster-based communication architecture is better suited than direct communication architecture when an RF signal is considered. This paper presents a cluster-based two-hop communication mechanism between two underwater nodes or two underwater vehicles. Particularly, a novel dynamic cluster head selection mechanism based on the unused energy and distance from cluster head to buoy has been proposed. This mechanism ensures uniform power consumption among all the underwater nodes or vehicles in a cluster. Moreover, it eliminates the necessity for a dedicated cluster head. The network performance using the proposed model has been analyzed in terms of the total network’s life and the time after which a node dies first in the network. The results have been compared with the existing communication mechanisms like communication via a fixed cluster head and direct communication.

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基于动态簇头选择策略的水下无线传感器网络射频组网研究

在通信系统设计中考虑到低传输距离和高衰减的情况下，两个水下无线节点或两个水下航行器之间可以通过射频通信进行通信。值得注意的是，当考虑射频信号时，基于集群的通信体系结构比直接通信体系结构更适合。提出了一种基于集群的水下节点或水下航行器间的两跳通信机制。特别提出了一种基于未使用能量和簇头到浮标距离的簇头动态选择机制。这种机制确保了集群中所有水下节点或车辆的功耗均匀。此外，它消除了专用集群头的必要性。使用该模型对网络性能进行了分析，分析了网络的总寿命和网络中节点首先死亡的时间。结果与现有的通信机制如通过固定簇头通信和直接通信进行了比较。

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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2023 11th International Symposium on Electronic Systems Devices and Computing (ESDC)

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