IMPROVED REAL-TIME HOUSE FIRE DETECTION SYSTEM PERFORMANCE WITH IMAGE CLASSIFICATION USING MOBILENETV2 MODEL

JIPI Jurnal IPA dan Pembelajaran IPA Pub Date : 2023-05-30 DOI:10.29100/jipi.v8i2.3803

M. Faris, Endro Ariyanto, Yogi Anggun Saloko Yudo

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Abstract

The problem with the Ardunio microcontroller-based fire detection system with fire and smoke sensors is the detection distance. For example, in another research, it was stated that the maximum distance for fire detection on two pieces of paper that were burned was 140 cm. This means that if the fire point is at a farther distance, the system cannot detect a fire early, of course, this will be problematic if used in a wider room. Based on these problems, a system is needed that can detect fires in large rooms. A method that can be used is detection using image classification. MobileNetV2 is a real-time model for classifying or detecting an object in an image. In this study, the model was built using real-time based on the TensorFlow and Keras libraries. The system will use a laptop with an Nvidia GeForce MX130 GPU, a 48MP resolution smartphone camera, and the OpenCV library for the image classification process, as well as Telegram for sending fire notifications via the Re-quests library. The test results obtained on burnt 80/90 motorcycle tires, the most optimal detection distance is 7 meters with an accuracy of 99.91%. While testing on two sheets of paper that are burned, the most optimal detection distance is 3 meters with an accuracy of 99.75%. The average response time obtained varies greatly from 74.5 ms to 117.1 ms, which depends on the internet network connection.

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利用mobilenetv2模型进行图像分类，提高实时房屋火灾探测系统的性能

问题与Ardunio微控制器为基础的火灾探测系统与火灾和烟雾传感器是探测距离。例如，在另一项研究中指出，在两张燃烧的纸上探测火灾的最大距离为140厘米。这意味着，如果火点在较远的距离，系统无法及早发现火灾，当然，如果在较宽的房间使用，这将是有问题的。基于这些问题，需要一种能够探测大房间火灾的系统。一种可用的方法是利用图像分类进行检测。MobileNetV2是一个实时模型，用于对图像中的物体进行分类或检测。在本研究中，使用基于TensorFlow和Keras库的实时构建模型。该系统将使用一台带有Nvidia GeForce MX130 GPU的笔记本电脑，一个48MP分辨率的智能手机摄像头，以及用于图像分类过程的OpenCV库，以及通过requests库发送火灾通知的Telegram。对烧毁的80/90型摩托车轮胎进行测试，最佳检测距离为7米，准确率为99.91%。在燃烧的两张纸上进行测试时，最佳检测距离为3米，准确率为99.75%。所获得的平均响应时间在74.5 ms到117.1 ms之间变化很大，这取决于internet网络连接。

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

JIPI Jurnal IPA dan Pembelajaran IPA

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审稿时长

12 weeks