在深度学习目标检测下，卫星图像目标伪装仍然有效吗?

Proceedings of the 2019 3rd International Conference on Advances in Image Processing Pub Date : 2019-11-08 DOI:10.1145/3373419.3373448

Shuai Kang, Haichang Gao, Yiwen Tang, Yi Liu, Jiaming Chen

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引用次数: 0

摘要

卫星图像可以用来鸟瞰广阔的地面。过去，研究人员使用手工特征来探测卫星图像中的目标。随着深度学习的快速发展，Faster R-CNN、YOLO、SSD、RetinaNet等神经网络可以精确、快速地检测目标。传统的伪装设计是为了使重要目标难以识别。那么卫星图像目标伪装在深度学习目标检测下是否仍然有效呢?本文利用YOLO v3和retanet验证了伪装的有效性，并提出了改进的YOLO v3来提高检测效率，在416*416图像下，将检测速度从34.5fps提高到55.3fps。实验结果表明，在深度学习目标检测方法下，卫星图像中的目标伪装没有影响。最后，对如何提高伪装效果以抵抗深度学习检测提出了建议。

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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Is Satellite Image Target Camouflage Still Valid Under Deep Learning Target Detection?

Satellite images can be used to observe a wild range of ground in a bird's eye view. In the past, researchers used hand-craft features to detect targets in satellite images. With the rapid growth of deep learning, neural networks such as Faster R-CNN, YOLO, SSD and RetinaNet can detect targets precisely and quickly. Traditional camouflage is designed to make important targets hard to identify. So whether the satellite image target camouflage is still effective with deep learning target detection? In this paper, we use YOLO v3 and RetinaNet to verify the effectiveness of camouflage and propose an improved YOLO v3 to enhance detection efficiency, which raise the detection speed from 34.5fps to 55.3fps in an image of 416*416. The experimental results show that the target camouflage in the satellite image has no effect under deep learning target detection methods. At the end of the paper, suggestions on how to improve the camouflage effect to resist deep learning detection are proposed.

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Proceedings of the 2019 3rd International Conference on Advances in Image Processing

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