基于物联网的Sugeno模糊逻辑洪水监测系统的分析与实现

Alvijar Akbar, Martin Clinton, Ilham Firman Ashari
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引用次数: 0

摘要

洪水灾害可能会产生不利影响,如对基础设施、材料的破坏和生命损失。进行洪水灾害早期检测的努力之一是使用洪水预测系统,该系统可以监测水位、水流速度,并实时预测水量增加。信息通过telegram聊天机器人发送给每个公民。该系统使用多个传感器构建,并与Telegram集成。所使用的传感器是超声波传感器和水流传感器。超声波传感器用于读取0-50cm范围内的水位,水流传感器用于计算以0-10升/分钟的间隔进入测试容器的水流。数据通过NodeMCU ESP8266和WiFi模块使用firebase数据库实时发送到telegram。利用Sugeno模糊逻辑对水位和流量数据的读取结果进行处理。本研究的结果表明,超声波传感器的平均误差读数为2.43%或97.58%。水流传感器显示的平均误差为0.206升/分钟,或工具精度的百分比为87.06%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analysis and Implementation Monitoring Flood System Based on IoT Using Sugeno Fuzzy Logic
Flood disasters can have a detrimental impact such as damage to infrastructure, materials, and loss of life. One of the efforts that can be made to carry out early detection of flood disasters is to use a flood prediction system, where this system can monitor water levels, water flow rates, and predict real-time water increases. Information is sent to every citizen using the telegram chatbot. This system is built using several sensors and integrated with Telegram. The sensors used are ultrasonic and water flow sensors. The ultrasonic sensor is used to read the water level in the range of 0-50 cm and the water flow sensor is used to calculate the flow of water entering the test container with an interval of 0-10 liters / minute. Data is sent to telegram in realtime using the firebase database through NodeMCU ESP8266 and the WiFi module. The results of reading water level and water discharge data are processed using Sugeno fuzzy logic. The results obtained in this study indicate that the average error reading from the ultrasonic sensor is 2.43% or 97.58%. The water flow sensor shows an average error of 0.206 liters/minute or the percentage of tool accuracy is 87.06 %.
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