Forest Fire Detection using Convolutional Neural Network Model

2023 IEEE 8th International Conference for Convergence in Technology (I2CT) Pub Date : 2023-04-07 DOI:10.1109/I2CT57861.2023.10126370

Shubham Sah, S. Prakash, S. Meena

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Abstract

Everyone recalls the destruction brought on by the Australian forest fires in 2019. Even though there isn’t much we can do to battle forest fires on our own, we can always rely on technology. By this we are trying to predict the accuracy of these models on forest fire data set. We are trying to detect forest fire in dense forest; our data set is very diverse and consist of images having forest fires, smokes, non-smoke and fire images. We have found out that Sensor detection and real-time geological data analysis are two methods for detecting forest fires. However, using image classification, for which Deep learning is the most efficient solution, is one of the best methods for detecting fire. In addition, these algorithms can be integrated with drones using deep learning techniques so that images can be taken frequently from the sky with ease, smoke can be detected in dense forests, and the authorities can be notified to take immediate action. The convolutional neural network algorithm for fire detection was the sole focus of our paper. The value of various epochs is used to evaluate these results.

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基于卷积神经网络模型的森林火灾探测

每个人都记得2019年澳大利亚森林大火造成的破坏。尽管我们自己在扑灭森林大火方面无能为力，但我们总是可以依靠科技。通过这种方法，我们试图预测这些模型在森林火灾数据集上的准确性。我们试图在茂密的森林中发现森林火灾;我们的数据集非常多样化，包括森林火灾、烟雾、非烟雾和火灾图像。我们发现传感器探测和实时地质数据分析是森林火灾探测的两种方法。然而，使用图像分类是检测火灾的最佳方法之一，深度学习是其中最有效的解决方案。此外，这些算法可以通过深度学习技术与无人机集成，从而可以轻松地从空中频繁拍摄图像，可以在茂密的森林中检测到烟雾，并可以通知当局立即采取行动。卷积神经网络火灾探测算法是本文唯一的研究重点。用不同时期的值来评价这些结果。

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2023 IEEE 8th International Conference for Convergence in Technology (I2CT)

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