大自然启发的消防员助手由无人机(UAV)数据

Seyed Muhammad Hossein Mousavi, Atiye Ilanloo
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引用次数: 1

摘要

森林中最危险的现象之一是野火或丛林火灾,早期发现大规模损害预防至关重要。利用无人机(UAV)作为视觉和灭火工具来防止这种对人类和野生动物造成致命影响的悲剧具有重要意义。此外,使用航空图像可以帮助消防员识别火灾强度,并在森林中定位和路线火灾,从而减少消防员的伤亡。通过使用廉价的无人机,所有这些好处甚至更多都是可能的。本研究采用自然图像处理技术对彩色和热图像中的火焰进行分割和分类。采用鸡群算法(CSA)强度调节(对比度增强)、去噪卷积神经网络(DnCNN)、局部相位量化(LPQ)特征提取、蜜蜂图像分割、基于生物地理的优化(BBO)特征选择、萤火虫算法(FA)分类等多种自然启发和传统计算机视觉技术,实现了较高的分类和分割精度。该系统在分割阶段评估9个性能指标,包括F-Score、准确性和Jaccard,在分类阶段评估4个性能指标。所有实验都在FLAME(2021)和DeepFire(2022)两个最新的无人机火灾数据集上进行。此外,还可以计算出火灾强度、火灾方向和火灾几何计算,从而为消防员提供更多帮助。由于烟雾可以显示火灾的位置,因此提出了一种烟雾检测工作流程。该系统与传统的和新颖的分割和分类方法进行了比较,在几乎所有指标上都取得了令人满意的结果。该系统的训练模型可用于当前大多数救援无人机的实时应用。对于FLAME数据集(颜色数据),分割精度为95.57%,分类精度为91.33%。对于DeepFire数据集,分割精度为91.74%,分类精度为96.88%。
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Nature inspired firefighter assistant by unmanned aerial vehicle (UAV) data
One of the most hazardous phenomena in forests is wildfire or bush fire and early detection of massive damage prevention is vital. Employing Unmanned Aerial Vehicles (UAV) as a visual and extinguisher tool in order to prevent this tragedy which brings fatal effects on humans and wildlife has high importance. Additionally, using aerial imagery could assist firefighters to recognize fire intensity and localize and route the fire in the forest which shrinks down casualties of firefighters. All these benefits and more is just possible by employing cheap UAVs. The proposed research uses nature-inspired image processing techniques in order to segment and classify fire in color and thermal images. Multiple nature-inspired and traditional computer vision techniques, including Chicken Swarm Algorithm (CSA) intensity adjustment (contrast enhancement), Denoising Convolutional Neural Network (DnCNN), Local Phase Quantization (LPQ) feature extraction, Bees Image Segmentation, Biogeography-Based Optimization (BBO) feature selection, Firefly Algorithm (FA) classification and more are employed to achieve high classification and segmentation accuracy. The system evaluates nine performance metrics including, F-Score, Accuracy, and Jaccard for the segmentation stage and four performance metrics for the classification stage. All experiments are conducted on the two most recent UAV fire datasets of FLAME (2021) and DeepFire (2022). Additionally, fire intensity, fire direction, and fire geometrical calculation are calculated which assists firefighters even more. As smoke shows the location of the fire, a smoke detection workflow is proposed, too. Proposed system Compared with traditional and novel methods for segmentation and classification leading to satisfactory and promising results for almost all metrics. The trained model of this system could be used in most of the current rescue UAVs in real-time applications. For the FLAME dataset (color data), segmentation precision is 95.57 % and classification accuracy is 91.33 %. Also, For the DeepFire dataset segmentation precision is 91.74 % and classification accuracy is 96.88 %.
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