Abstract
Few-shot object detection is a recently emerging branch in the field of computer vision. Recent research studies have proposed several effective methods for object detection with few samples. However, their performances are limited when applied to remote sensing images. In this article, we specifically analyze the characteristics of remote sensing images and propose a few-shot fine-tuning network with a shared attention module (SAM) to adapt to detecting remote sensing objects, which have large size variations. In our SAM, multi-attention maps are computed in the base training stage and shared with the feature extractor in the few-shot fine-tuning stage as prior knowledge to help better locate novel class objects with few samples. Moreover, we design a new few-shot fine-tuning stage with a balanced fine-tuning strategy (BFS), which helps in mitigating the severe imbalance between the number of novel class samples and base class samples caused by the few-shot settings to improve the classification accuracy. We have conducted experiments on two remote sensing datasets (NWPU VHR-10 and DIOR), and the excellent results demonstrate that our method makes full use of the advantages of few-shot learning and the characteristics of remote sensing images to enhance the few-shot detection performance.
Highlights
IntroductionIn the general object detection field, a large number of object detection methods based on convolutional neural networks (CNN) have been proposed
We increase the value of K to 5, 10, and 20 when testing our method on DIOR, with the consideration that DIOR is a large dataset with tens of thousands of remote sensing images
We firstly analyze the characteristics of remote sensing images and the reasons leading to the poor performances of existing methods in detecting the remote sensing objects
Summary
In the general object detection field, a large number of object detection methods based on convolutional neural networks (CNN) have been proposed. Most of the existing methods in the remote sensing field apply general object detection methods on remote sensing images, with a little improvement for detecting the small objects or rotation angles. These methods are not well adapted to the characteristics of remote sensing images. A well-designed deep learning neural network can achieve good detection performance when a large number of training samples are available, but it is easy to overfit when the training set is small
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