Object Detection Based on Adaptive Feature-Aware Method in Optical Remote Sensing Images

Object detection is used widely in remote sensing image interpretation. Although most models used for object detection have achieved high detection accuracy, computational complexity and low detection speeds limit their application in real-time detection tasks. This study developed an adaptive feature-aware method of object detection in remote sensing images based on the single-shot detector architecture called adaptive feature-aware detector (AFADet). Self-attention is used to extract high-level semantic information derived from deep feature maps for spatial localization of objects and the model is improved in localizing objects. The adaptive feature-aware module is used to perform adaptive cross-scale depth fusion of different-scale feature maps to improve the learning ability of the model and reduce the influence of complex backgrounds in remote sensing images. The focal loss is used during training to address the positive and negative sample imbalance problem, reduce the influence of the loss value dominated by easily classified samples, and enhance the stability of model training. Experiments are conducted on three object detection datasets, and the results are compared with those of the classical and recent object detection algorithms. The mean average precision(mAP) values are 66.12%, 95.54%, and 86.44% for three datasets, which suggests that AFADet can detect remote sensing images in real-time with high accuracy and can effectively balance detection accuracy and speed.

Automated summary

Object detection plays an important role in remote sensing image interpretation. This study proposes an adaptive feature-aware method based on the single-shot detector architecture for object detection in remote sensing images. The approach utilizes self-attention and adaptive feature-aware module to improve localization and reduce the influence of complex backgrounds. Experimental results demonstrate that the proposed method achieves high accuracy and real-time detection of remote sensing images.