Cluster based and Adaptive Power Controlled Routing Protocol for Underwater Wireless Sensor Networks

2018 21st Saudi Computer Society National Computer Conference (NCC) Pub Date : 2018-04-25 DOI:10.1109/NCG.2018.8592955

Aasma Khan, N. Javaid, Ghazanfar Latif, Landing Jatta, Aisha Fatima, Wahab Khan

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引用次数: 10

Abstract

Underwater Wireless Sensor Networks (UWSNs) have been considered as an emerging and promising method for exploring and monitoring deep ocean. The UWSNs face many challenges such as noise, high transmission delays, high deployment cost, movement of nodes, energy constraints, etc. In UWSNs nodes are sparsely and unevenly deployed, that may results in void hole occurrence. Secondly low propagation speed in UWSNs causes high end-to-end delay and energy consumption. In this paper, we propose two schemes: Adaptive Transmission Range in WDFAD-DBR (ATR-WDFAD-DBR) and Cluster Based WDFAD-DBR (CBWDFAD-DBR). In aforesaid scheme to reduce the probability of void hole this scheme adjusts its transmission range when it finds a void node and then continues to forward data towards the sink. In later, to minimize end-to-end delay and energy consumption network is divided into clusters. Simulation results show that our schemes outperform compared with baseline solution in terms of average Packet Delivery Ration (PDR), average energy tax, end-to-end delay and Accumulated Propagation Distance (APD).

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基于集群的水下无线传感器网络自适应功率控制路由协议

水下无线传感器网络(UWSNs)被认为是一种新兴的、有前途的深海探测和监测方法。UWSNs面临着噪声、传输时延高、部署成本高、节点移动和能量限制等诸多挑战。在UWSNs中，节点分布稀疏且不均匀，这可能导致空穴的出现。其次，UWSNs的低传播速度导致了高的端到端延迟和能量消耗。本文提出了两种方案:自适应传输范围wddad - dbr (atr - wddad - dbr)和基于集群的wddad - dbr (cbwddad - dbr)。在上述方案中，为了降低空穴的概率，该方案在发现空穴节点时调整传输范围，然后继续向sink转发数据。在后期，为了最小化端到端时延和能耗，将网络划分为集群。仿真结果表明，我们的方案在平均分组分发率(PDR)、平均能量税、端到端延迟和累积传播距离(APD)等方面都优于基线方案。

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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2018 21st Saudi Computer Society National Computer Conference (NCC)

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