Improving wildland fire spread prediction using deep U-Nets

IF 5.7 Q1 ENVIRONMENTAL SCIENCES
Fadoua Khennou, Moulay A. Akhloufi
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引用次数: 0

Abstract

Forest fires are able to cause significant damage to humans and the earth's fauna and flora. If a fire is not detected and extinguished before it spreads, it can have disastrous results. In addition to satellite images, recent studies have shown that exploring both weather and topography characteristics is crucial for effectively predicting the propagation of wildfires. In this paper, we present FU-NetCastV2, a deep learning convolutional neural network for fire spread and burned area mapping. This algorithm predicts which areas around wildfires are at high risk of future spread. With an accuracy of 94.6% and an AUC of 97.7%, the model surpassed the literature by 3.7% and exhibited a 1.9% improvement over our previous model. The proposed approach was implemented using consecutive forest wildfire perimeters, satellite images, Digital Elevation Model maps, aspect, slope and weather data.

利用深度U-Nets改进野火蔓延预测
森林火灾能够对人类和地球上的动植物造成重大损害。如果火灾在蔓延之前没有被发现并扑灭,可能会造成灾难性的后果。除了卫星图像外,最近的研究表明,探索天气和地形特征对于有效预测野火的传播至关重要。在本文中,我们提出了FU-NetCastV2,一种用于火灾蔓延和烧伤区域映射的深度学习卷积神经网络。该算法预测了野火周围哪些地区未来蔓延的风险很高。该模型的准确率为94.6%,AUC为97.7%,比文献高出3.7%,比我们之前的模型提高了1.9%。该方法使用连续森林野火周长、卫星图像、数字高程模型地图、坡向、坡度和天气数据来实现。
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CiteScore
12.20
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