K. Akshatha, Subhrajyoti Biswas, A. K. Karunakar, B. Satish Shenoy
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引用次数: 0
Abstract
With the increase in the traffic on roadways, traffic monitoring is the major need we have at this moment. Using UAVs for traffic monitoring has numerous advantages such as broader field of view, higher mobility, no effect on detected traffic, etc., however, variation in camera orientation, UAV height, cluttered background imposes challenges to this aerial object detection. To provide a UAV-based traffic monitoring solution, we have proposed a car detection system for UAV images using deep learning approaches. We compared the performance of the anchorless Fully Convolutional One Stage (FCOS) object detection algorithm with the popular YOLOv3 algorithm. The performance analysis of these models based on mean Average Precision (mAP) indicates that FCOS yields better results over YOLOv3, whereas in terms of computation speed YOLOv3 performed better.
随着道路交通量的增加,交通监控是我们目前的主要需求。利用无人机进行交通监控具有视场更宽、机动性更高、对被检测交通不产生影响等诸多优点,但摄像机方向、无人机高度、背景杂乱等因素的变化给这种空中目标检测带来了挑战。为了提供基于无人机的交通监控解决方案,我们提出了一种使用深度学习方法的无人机图像汽车检测系统。我们比较了无锚定的全卷积单阶段(FCOS)目标检测算法与流行的YOLOv3算法的性能。基于mean Average Precision (mAP)对这些模型的性能分析表明,FCOS的计算结果优于YOLOv3,而在计算速度方面,YOLOv3表现更好。
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