森林火灾监测系统中基于无线传感器网络的Sugeno模糊逻辑优化

S. Budiyanto, Lukman Medriavin Silalahi, Freddy Artadima Silaban, U. Darusalam, Septi Andryana, I. Fajar Rahayu
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引用次数: 8

摘要

森林火灾是一种经常发生在印度尼西亚的自然灾害现象,是当地和全球关注的问题。当今发生的森林火灾主要由自然因素和不受控制的人类活动因素两大因素引起。因此,这项研究是为了找到减少今天经常发生的森林火灾的方法。因此,设计了一种基于Sugeno FIS(模糊推理系统)算法的双传感器无线传感器网络火灾探测系统,该系统可通过Internet网络访问。本研究的目的是利用无线传感器网络(WSN)为大范围的火灾易发地区创建一个森林火灾监测系统。本研究还采用模糊推理系统(FIS, Fuzzy Inference System)方法作为决策方法,通过数学计算提高火灾探测系统的准确性,使该方法的输出结果为火灾状态等级。还使用了物联网技术,使用户可以通过互联网实时接收信息。根据已设计系统的测试结果,与人工计算相比,Sugeno FIS(模糊推理系统)在SN1和SN2上的计算准确率为100%。SN1的平均发送速度为1.67秒,SN2的平均发送速度为1.52秒。在10 ~ 100cm范围内测试火灾传感器的检测状态,结果符合预先设定的阈值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimization Of Sugeno Fuzzy Logic Based On Wireless Sensor Network In Forest Fire Monitoring System
Forest fires are a phenomenon of natural disasters that often occur in Indonesia and are a local and global concern. Forest fires that occur today are caused by two main factors namely natural factors and uncontrolled human activity factors. Therefore in this research is to find ways to reduce forest fires that often occur today. Therefore, a fire detection system with dual sensor based wireless sensor network based with Sugeno FIS (Fuzzy Inference System) algorithm is designed that can be accessed through the Internet network. The purpose of this research is to create a forest fire monitoring system for a wide area of fire-prone areas using WSN (Wireless Sensor Network). In this study also used the FIS (Fuzzy Inference System) method as a method of decision making with mathematical calculations that can improve accuracy in the fire detection system so that the output of this method is the level of fire status. Internet of Things technology is also used so that information can be received by users in real-time through the Internet network. Based on the test results on the system that has been designed, Sugeno FIS (Fuzzy Inference System) calculations on SN1 and SN2 have 100% accuracy when compared to manual calculations. The average speed of sending data on SN1 is 1.67 seconds and on SN2 is 1.52 seconds. Testing the detection status of the fire sensor with a distance of 10 to 100 cm has results that correspond to a predetermined threshold.
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