FLCEER

IF 0.6 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS International Journal of Information Technology and Web Engineering Pub Date : 2020-07-01 DOI:10.4018/ijitwe.2020070105
Sathishkumar Natesan, Rajakumar Krishnan
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引用次数: 4

Abstract

Underwater acoustic sensor networks (UASN) play a crucial role in various applications such as tsunami detection, surveillance of the ocean by the defense department, monitoring offshore oil, and identifying gas basins underwater. UASNs can be one of the supporting infrastructures for the Internet of Things (IoT). UASNs have the problems of long latency, high bit error rate, and low bandwidth. These pose various challenges such as high consumption of energy, low reliability, low packet retransmission, and high delay for UASNs. To overcome the shortcomings mentioned above, various approaches are suggested. This article proposes a multi-layer fuzzy logic cluster-based energy-efficient routing protocol for UASNs. It splits the network area into equal sized rings. The priority number (PRN) is utilized for all underwater cluster heads (UCHs). Based on the highest PRN, the UCH starts communicating among UCHs. Here, the PRN makes the task very selective avoiding collisions and also reducing propagation delays. The cluster formation is done by sending a message to all underwater cluster members (UCMs) and the selection of UCH and UCM are done. Each has a threshold value. The intra-ring clustering process splits a ring into equal-sized clusters. Additionally, inter-cluster routing applies the fuzzy logic metrics to choose the optimum data route in transferring the data from the underwater cluster head (UCH) to the sink node (SN). It is tested using Aqua-Sim simulation which is based on NS2. It is compared with an existing protocol such as multi-layer cluster energy efficient (MLCEE), depth-based routing (DBR), energy efficient DBR (EEDBR). The results prove that it has improved energy efficiency, packet delivery ratio, throughput, and the network's lifetime.
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FLCEER
水声传感器网络(usasn)在各种应用中发挥着至关重要的作用,例如海啸探测、国防部对海洋的监视、监测海上石油和识别水下天然气盆地。uasn可以成为物联网(IoT)的支持基础设施之一。usns存在时延长、误码率高、带宽低等问题。这给usns带来了高能耗、低可靠性、低数据包重传和高延迟等挑战。为了克服上述缺点,提出了各种方法。提出了一种基于多层模糊逻辑聚类的无线局域网节能路由协议。它将网络区域分成大小相等的环。优先级数(PRN)用于所有水下簇头(UCHs)。基于最高的PRN, UCH之间开始通信。在这里,PRN使任务非常有选择性,避免了碰撞,也减少了传播延迟。通过向所有水下簇成员(UCM)发送消息,完成簇的形成,并完成UCH和UCM的选择。每个都有一个阈值。环内聚类过程将一个环分成大小相等的簇。此外,簇间路由应用模糊逻辑度量来选择数据从水下簇头(UCH)到汇聚节点(SN)的最优路径。采用基于NS2的Aqua-Sim仿真对其进行了测试。并与现有的多层簇能效协议(MLCEE)、基于深度路由(DBR)、能效DBR (EEDBR)等协议进行了比较。实验结果表明,该方法提高了网络的能量利用率、数据包传输率、吞吐量和网络寿命。
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来源期刊
CiteScore
2.60
自引率
0.00%
发文量
24
期刊介绍: Organizations are continuously overwhelmed by a variety of new information technologies, many are Web based. These new technologies are capitalizing on the widespread use of network and communication technologies for seamless integration of various issues in information and knowledge sharing within and among organizations. This emphasis on integrated approaches is unique to this journal and dictates cross platform and multidisciplinary strategy to research and practice.
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