Attention-Guided Multi-Scale Feature Aggregation for Robust SAR Ship Detection in Complex Port Environments
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Abstract
To address the challenges of synthetic aperture radar (SAR) ship detection in complex port environments, including strong background clutter, large-scale variations, and frequent missed detections of small vessels, this paper proposes a lightweight attention-guided multi-scale fusion detector, termed LAMFDet, based on YOLOv8. The proposed framework enhances the baseline architecture from three complementary perspectives: multi-scale feature enhancement, lightweight adaptive feature extraction, and efficient feature reconstruction. Specifically, a multi-scale feature enhancement module (SPPFSENetV2) integrating spatial pyramid pooling with channel attention is designed to strengthen scale-aware contextual representations. A lightweight adaptive extraction (LAE) module is introduced to improve small-target perception while maintaining computational efficiency. Furthermore, an efficient upsampling convolution block (EUCB) is incorporated to preserve structural details and enhance feature fusion quality across feature levels. Extensive experiments on two public SAR ship datasets, HRSID and SSDD, demonstrate the effectiveness and generalization capability of LAMFDet. On HRSID, LAMFDet achieves 94.79% Precision and 71.53% [email protected]:0.95, surpassing YOLOv8n by 2.81% and 14.92%, respectively. On SSDD, it further attains 99.65% Precision and 82.05% [email protected]:0.95, indicating strong robustness under diverse SAR imaging conditions. These results confirm that LAMFDet effectively improves detection completeness and localization accuracy for small and densely distributed vessels while maintaining favorable efficiency, highlighting its practical potential for real-time port monitoring and maritime surveillance.
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- last seen: 2026-05-20T01:45:00.602351+00:00