DFFormer: UAV Object Detection via Feature Scaling and Interaction

计算机科学 目标检测 特征提取 人工智能 特征(语言学) 编码器 模式识别(心理学) 像素 一般化 探测器 计算机视觉 缩放比例 骨干网 比例(比率) 语义特征 图层(电子) 特征检测(计算机视觉) 数据挖掘 特征学习 传感器融合 无人机 人工神经网络 假警报 节点(物理) 语义学(计算机科学) 融合 深度学习 机器学习 对象(语法) 透视图(图形) 变更检测
作者
Hanyun Li,Linsong Xiao,Lihua Cao,Sai Yao,Minghao Wang,Yi Li
出处
期刊:IEEE Transactions on Geoscience and Remote Sensing [Institute of Electrical and Electronics Engineers]
卷期号:64: 1-16 被引量:1
标识
DOI:10.1109/tgrs.2026.3658082
摘要

Machine vision-based anti-drone detection systems enable long-range, cost-effective target monitoring in complex environments. However, small drones typically occupy only a few pixels in captured images. Existing detectors suffer from semantic loss and insufficient fusion during feature extraction and cross-scale interaction, resulting in limited detection accuracy. To address these challenges, this paper proposes Diffusion Focusing Former (DFFormer), a detection framework specifically designed for small target identification. The framework employs a backbone network to extract multi-layer features, which are enhanced through an Advanced Feature Processing Layer (AFPL) to strengthen semantic representation. A Feature Scaling Layer (FSL) then organically fuses shallow and high-level information before encoder processing, preserving fine-grained cues while minimizing computational overhead. Subsequently, the Multi-Scale Focusing Diffusion Network (MSFDN) processes scaled features for cross-scale interaction and progressive fusion. The Focusing Fusion Module (FFM) injects comprehensive contextual information into each scale throughout this process. Experimental results on three anti-drone datasets (DUT-Anti-UAV, Bird-UAV, and Anti-UAV (Inf)) demonstrate that DFFormer consistently outperforms existing state-of-the-art methods across multiple evaluation metrics. Generalization validation on the VisDrone2019 aerial dataset further confirms the method’s applicability to diverse scenarios and configurations.
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