利用YOLO对无人机图像中的车辆进行检测和掩蔽,改进摄影测量产品

IF 0.3 Q4 REMOTE SENSING Reports on Geodesy and Geoinformatics Pub Date : 2022-12-01 DOI:10.2478/rgg-2022-0006
K. Pargieła
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引用次数: 0

摘要

摘要通过对无人机采集的数据进行处理而获得的摄影测量产品被广泛应用于许多领域。分析了各种结构,包括道路。许多城市道路的特点是交通拥挤。这使得在航拍照片中不可能避免汽车的出现。然而,它们不是景观的组成部分,因此它们在生成的摄影测量产品中是不必要的。在图像中出现汽车也可能导致错误,如道路区域的数字高程模型(dem)的不规则性和正射影像图的模糊效应。研究的目的是为了提高用运动构造算法获得的摄影测量产品的质量。为了实现这一目标,使用Yolo v3算法自动检测图像中的汽车。利用不同航班的数据进行神经网络学习,以确保获得的探测器也可以用于独立的项目。然后在两种情况下进行摄影测量过程:带口罩和不带口罩。结果表明,自动遮蔽图像中的汽车是快速的,并允许显著提高摄影测量产品的质量,如dem和正射影像图。
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Vehicle detection and masking in UAV images using YOLO to improve photogrammetric products
Abstract Photogrammetric products obtained by processing data acquired with Unmanned Aerial Vehicles (UAVs) are used in many fields. Various structures are analysed, including roads. Many roads located in cities are characterised by heavy traffic. This makes it impossible to avoid the presence of cars in aerial photographs. However, they are not an integral part of the landscape, so their presence in the generated photogrammetric products is unnecessary. The occurrence of cars in the images may also lead to errors such as irregularities in digital elevation models (DEMs) in roadway areas and the blurring effect on orthophotomaps. The research aimed to improve the quality of photogrammetric products obtained with the Structure from Motion algorithm. To fulfil this objective, the Yolo v3 algorithm was used to automatically detect cars in the images. Neural network learning was performed using data from a different flight to ensure that the obtained detector could also be used in independent projects. The photogrammetric process was then carried out in two scenarios: with and without masks. The obtained results show that the automatic masking of cars in images is fast and allows for a significant increase in the quality of photogrammetric products such as DEMs and orthophotomaps.
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来源期刊
自引率
28.60%
发文量
5
审稿时长
12 weeks
期刊最新文献
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