Abstract
Object detection is a significant and challenging problem in the study of remote sensing. Since remote sensing images are typically captured with a bird’s-eye view, the aspect ratios of objects in the same category may obey a Gaussian distribution. Generally, existing object detection methods ignore exploring the distribution character of aspect ratios for improving performance in remote sensing tasks. In this paper, we propose a novel Self-Adaptive Aspect Ratio Anchor (SARA) to explicitly explore aspect ratio variations of objects in remote sensing images. To be concrete, our SARA can self-adaptively learn an appropriate aspect ratio for each category. In this way, we can only utilize a simple squared anchor (related to the strides of feature maps in Feature Pyramid Networks) to regress objects in various aspect ratios. Finally, we adopt an Oriented Box Decoder (OBD) to align the feature maps and encode the orientation information of oriented objects. Our method achieves a promising mAP value of 79.91% on the DOTA dataset.
Highlights
In recent years, with the developing of spaceborne sensors, the resolution of remote sensing images has greatly increased
ground sample distance (GSD) of the other two categories are shown in Figure 2, some categories, such as plane and ground-track-field, may still suffer from scale variations in meters, so we focus on aspect ratio and do not lucubrate GSD in this work
We propose a novel Self-Adaptive Aspect Ratio Anchor (SARA) for matching the aspect ratio variations of objects in remote sensing images
Summary
With the developing of spaceborne sensors, the resolution of remote sensing images has greatly increased. This provides us a lot of high remote sensing images for researching and understanding. Scale variations: Due to the resolutions of spaceborne sensors are not completely consistent, the ground sample distance (GSD) (the physical size of one image pixel in meters, i.e. meter per pixel) of images is often in variation. The scales of the same category of objects, such as vehicles, are often with different number pixels even they are the same type of vehicles. This will cause scale variations in detection. It is hard to separate dense and small objects in images
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