Deep learning-based vehicle detection from orthophoto and spatial accuracy analysis

IF 3.1 Q2 ENGINEERING, GEOLOGICAL
Muhammed Yahya Bıyık, M. E. Atik, Z. Duran
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引用次数: 1

Abstract

Deep Learning algorithms are used by many different disciplines for various purposes, thanks to their ever-developing data processing skills. Convolutional neural network (CNN) are generally developed and used for this integration purpose. On the other hand, the widespread usage of Unmanned Aerial Vehicles (UAV) enables the collection of aerial photographs for Photogrammetric studies. In this study, these two fields were brought together and it was aimed to find the equivalents of the objects detected from the UAV images using deep learning in the global coordinate system and to evaluate their accuracy over these values. For these reasons, v3 and v4 versions of the YOLO algorithm, which prioritizes detecting the midpoint of the detected object, were trained in Google Colab’s virtual machine environment using the prepared data set. The coordinate values read from the orthophoto and the coordinate values of the midpoints of the objects, which were derived according to the estimations made by the YOLO-v3 and YOLO-v4 models, were compared and their spatial accuracy was calculated. Accuracy of 16.8 cm was obtained with the YOLO-v3 and 15.5 cm with the YOLO-v4.
基于深度学习的正射影像车辆检测与空间精度分析
深度学习算法因其不断发展的数据处理技能而被许多不同学科用于各种目的。卷积神经网络(CNN)通常被开发并用于这种集成目的。另一方面,无人机的广泛使用使得能够收集用于摄影测量研究的航空照片。在这项研究中,这两个领域被结合在一起,目的是在全球坐标系中使用深度学习找到从无人机图像中检测到的物体的等效物,并评估其在这些值上的准确性。出于这些原因,YOLO算法的v3和v4版本优先检测检测到的对象的中点,使用准备好的数据集在Google Colab的虚拟机环境中进行了训练。比较从正射照片读取的坐标值和根据YOLO-v3和YOLO-v4模型进行的估计导出的物体中点的坐标值,并计算它们的空间精度。YOLO-v3和YOLO-v4的精确度分别为16.8cm和15.5cm。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
4.00
自引率
0.00%
发文量
12
审稿时长
30 weeks
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