揭开绿色卫士的面纱:利用语义分割深度学习神经网络技术对 Azadirachta indica 树进行绘图和识别

IF 3.7 3区 地球科学 Q2 ENVIRONMENTAL SCIENCES Egyptian Journal of Remote Sensing and Space Sciences Pub Date : 2024-06-08 DOI:10.1016/j.ejrs.2024.06.002
Pankaj Lavania , Ram Kumar Singh , Pavan Kumar , Savad K. , Garima Gupta , Manmohan Dobriyal , A.K. Pandey , Manoj Kumar , Sanjay Singh
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引用次数: 0

摘要

在根据树冠特征绘制和识别不同树种时,高空间分辨率数据会带来问题。我们在此提供的基于 U-Net 网络(U-Net.)人工智能模型的深度学习语义分割方法可以识别并绘制 Azadirachta indica 树的树冠覆盖图。该方法利用图像芯片和被分割项目的标签来训练模型。新的测试图像经过多级像素级卷积和池化操作处理。采样方法允许增加完整的图像来识别图像上的物体。该模型能够根据树冠形状、结构和像素数据识别物体,这使其在绘制和识别单一树种以及多个树种时非常有用。模型验证结果显示准确率为 84%-89%,这被认为是相当不错的。根据地面普查数据,识别的总体准确率为 89%,F1 分数为 0.91-0.94,而树冠匹配区域的完整树冠验证(交叉点到联合点)为 0.79-0.89。该方法可用于树冠的识别和绘图。该方法有可能用于重要的研究项目,如树木普查以及作物植物识别和绘图。用于树种自动识别推论的深度学习模型有助于解决农林相关领域基于识别和绘图的复杂问题。
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Unveiling the green guardians: Mapping and identification of Azadirachta indica trees with semantic segmentation deep learning neural network technique

The high spatial resolution data presents a problem when it comes to mapping and identifying distinct tree species based on the characteristics of their canopies. The deep learning Semantic Segmentation approach based on U-Network (U-Net.) artificial intelligence model that we provide here can recognize, and map Azadirachta indica trees canopy cover. This method trains its model by making use of image chips and labels of the item being segmented. The new testing images processed for multiple stages of pixel level of convolution and pooling operations. The sampling methods allow increase to make complete to make the recognized object on the image. The model’s ability to identify items based on canopy shape, structure, and pixel data makes it very useful for mapping and recognizing a single tree species as well as several tree species. The model validation results indicated an accuracy of 84–89 percent, which is regarded to be rather good. Based on ground census data, the overall accuracy of identification is 89 percent, F1 score 0.91–0.94, while the complete tree canopy validation (Intersection to Union) for canopy matching area is 0.79–0.89. The method has the potential to be utilised for identification, mapping of tree canopy. The approach has the potential to be used for important research initiatives i.e tree censuses and the identification and mapping of crop plant identification. The deep learning model used as inferences for automatization of the identification of the tree species helps to resolve identification and mapping based complex problems in agro-forestry allied fields.

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来源期刊
CiteScore
8.10
自引率
0.00%
发文量
85
审稿时长
48 weeks
期刊介绍: The Egyptian Journal of Remote Sensing and Space Sciences (EJRS) encompasses a comprehensive range of topics within Remote Sensing, Geographic Information Systems (GIS), planetary geology, and space technology development, including theories, applications, and modeling. EJRS aims to disseminate high-quality, peer-reviewed research focusing on the advancement of remote sensing and GIS technologies and their practical applications for effective planning, sustainable development, and environmental resource conservation. The journal particularly welcomes innovative papers with broad scientific appeal.
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