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联合空间-通道特征及频率选择的SAR目标检测OA

SAR Target Detection via Joint Spatial-Channel Feature and Frequency Selection

中文摘要英文摘要

针对由于SAR图像存在目标数量和种类多、尺度各异、高度复杂的背景相干斑噪声等特性导致检测精度低的问题,提出了一种联合空间-通道特征及频率选择的SAR目标检测算法.首先,采用经过预训练的ResNet-50网络作为主干网络来提取目标多尺度特征,并通过联合多尺度空间-通道特征增强模块的特征金字塔网络来增强对多尺度特征的表征.随后,在特征域引入频率选择模块来选择性地去除噪声同时保留目标信号以达到增强目标特征的目的.在标准数据集MSAR和SARDet-100K上进行了对比实验,结果表明,该算法在两个数据集上均超越了现有SAR图像目标检测算法Faster R-CNN、ConvNeXt、PVT-T和YOLOF,达到了最优性能.

Synthetic aperture radar(SAR)imagery is characterized by a large number of targets with diverse categories and significant scale variations,as well as highly complex background clutter caused by coherent speckle noise.These inherent properties substantially degrade detection accuracy and pose significant challenges to reliable target detection.To address the problem of insufficient detection performance under such conditions,this paper proposes a SAR target detection algorithm that jointly exploits spatial-channel feature fusion and frequency selection.Specifically,a ResNet-50 network pre-trained on large-scale datasets is adopted as the backbone to extract hierarchical and multi-scale feature representations from SAR images.On this basis,a feature pyramid network(FPN)augmented with a joint multi-scale spatia-channel feature enhancement module is constructed to strengthen the representation capability of features at different scales.This design enables the network to more effectively capture discriminative target information while alleviating the adverse impact of scale diversity among targets.By jointly modeling spatial and channel-wise dependencies,the proposed enhancement module improves feature expressiveness and robustness,particularly for small and weak targets embedded in cluttered backgrounds.Furthermore,a frequency selection module is introduced in the feature domain to explicitly exploit the frequency characteristics of SAR imagery.This module selectively suppresses noise components while preserving informative target-related signals,thereby enhancing target features and improving the signal-to-noise ratio.Through adaptive frequency-domain filtering,the proposed method effectively mitigates the influence of speckle noise without sacrificing critical structural information,leading to more reliable feature representations for subsequent detection.Extensive comparative experiments are conducted on two widely used benchmark datasets,MSAR and SARDet-100K,to evaluate the effectiveness of the proposed approach.Experimental results demonstrate that the proposed algorithm consistently outperforms several representative and state-of-the-art SAR image target detection methods,including Faster R-CNN,ConvNeXt,PVT-T,and YOLOF,across both datasets.These results indicate that the proposed framework achieves superior detection performance and exhibits strong generalization capability under complex SAR imaging conditions.Overall,the proposed method provides an effective solution for improving SAR target detection accuracy in scenarios involving complex backgrounds,severe speckle noise,and multi-scale target distributions.

纪晓平;陶普

中国航空工业集团公司雷华电子技术研究所,无锡 214082南京航空航天大学航天学院,南京 211106

信息技术与安全科学

SAR目标检测多尺度特征空间-通道特征频率选择特征去噪

SAR target detectionmulti-scale featurespatial-channel featurefrequency selectionfeature denoising

《数据采集与处理》 2026 (1)

202-214,13

10.16337/j.1004-9037.2026.01.014

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