AFSORP: Adaptive Fish Swarm Optimization-Based Routing Protocol for Mobility Enabled Wireless Sensor Network

Q4 Computer Science

International Journal of Computer Networks and Applications Pub Date : 2023-01-01 DOI:10.22247/ijcna/2023/218516

D. Jayaraj, J. Ramkumar, M. Lingaraj, B. Sureshkumar

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引用次数: 5

Abstract

– Advances in information and communication technology and electronics have led to a surge in interest in mobility-enabled wireless sensor networks (MEWSN). These minuscule sensor nodes collect data, process it, and then transmit it via a radio frequency channel to a central station or sink. Most of the time, MEWSNs are placed in hazardous or difficult-to-access locations. To increase the lifespan of a network, available resources must be utilized as efficiently as possible. The whole network connection collapses if even one node loses power, rendering the deployment's goals moot. Therefore, much MEWSN research has focused on energy efficiency, with energy-efficient routing protocols being a key component. This paper proposes an Adaptive Fish Swarm Optimization-based Routing Protocol (AFSORP) for identifying the best route in MEWSN. AFSORP functions based on the natural characteristics of fish. The two most important steps in AFSORP are chasing and blocking, which respectively seek the optimal route and choose the appropriate route to send data from the source node to the destination node. Standard network performance measurements are used to assess AFSORP with the help of the GNS3 simulator. The results show that AFSORP performs better than the existing routing methods.

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AFSORP：基于自适应鱼群优化的移动无线传感器网络路由协议

-信息通信技术和电子技术的进步导致人们对移动无线传感器网络(MEWSN)的兴趣激增。这些微小的传感器节点收集数据，对其进行处理，然后通过无线电频率通道将其传输到中央站或接收器。大多数情况下，mewsn被放置在危险或难以进入的位置。为了延长网络的寿命，必须尽可能有效地利用可用资源。即使只有一个节点断电，整个网络连接也会崩溃，从而使部署目标失去意义。因此，许多MEWSN的研究都集中在能源效率上，而节能路由协议是其中的关键组成部分。本文提出了一种基于自适应鱼群优化的路由协议(AFSORP)来识别MEWSN中的最佳路由。AFSORP功能是基于鱼类的自然特性。在AFSORP中最重要的两个步骤是追逐和阻塞，它们分别寻找最优路径，选择合适的路径将数据从源节点发送到目的节点。在GNS3模拟器的帮助下，使用标准网络性能测量来评估AFSORP。结果表明，该算法的性能优于现有的路由算法。

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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来源期刊

International Journal of Computer Networks and Applications Computer Science-Computer Science Applications

CiteScore

2.30

自引率

0.00%

发文量