A Data Transmission Scheme Using K-Means and Fuzzy Logic for IOT Sensor Based Forest Fire Detection System

Q2 Engineering

International Journal of Emerging Trends in Engineering Research Pub Date : 2022-10-06 DOI:10.30534/ijeter/2022/0110102022

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引用次数: 2

Abstract

Forest fires are natural disasters and effective mitigation of these fires require early warning systems. Deployment of sensors that are robust against environmental conditions, collection of sensor data in an energy efficient manner and at real time at the central server, and accurate detection of fire’s existence are all critical elements for implementing such systems. In this paper, we focus on second issue which is energy efficient routing of sensor data in a Internet-of-Things (IoT) sensor network that is deployed for forest fire detection. A Fuzzy-based Cluster Head selection technique for WSN in detecting forest fire is presented. In the proposed scheme, the nodes are divided into clusters using K-means clustering and then the cluster heads are determined by using a fuzzy logic scheme. Unlike traditional parameters, distance from the centroid and the remaining energy levels are used as parameters to select the cluster head. Simulation tool is used to implement the proposed technique. The simulation results suggest that the proposed cluster head selection approach outperforms the existing schemes

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基于k均值和模糊逻辑的物联网森林火灾探测系统数据传输方案

森林火灾是自然灾害，有效缓解这些火灾需要早期预警系统。部署对环境条件具有鲁棒性的传感器、以节能的方式在中央服务器实时收集传感器数据以及准确检测火灾的存在，都是实现此类系统的关键要素。在本文中，我们关注的第二个问题是物联网（IoT）传感器网络中传感器数据的节能路由，该网络用于森林火灾检测。提出了一种用于森林火灾探测的WSN的模糊簇头选择技术。在该方案中，使用K-means聚类将节点划分为簇，然后使用模糊逻辑方案确定簇头。与传统参数不同，距离质心的距离和剩余能级被用作选择簇头的参数。仿真工具用于实现所提出的技术。仿真结果表明，所提出的簇头选择方法优于现有方案

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来源期刊

International Journal of Emerging Trends in Engineering Research Engineering-Engineering (all)

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