Remote Sensing (Apr 2022)

A Lightweight Position-Enhanced Anchor-Free Algorithm for SAR Ship Detection

  • Yun Feng,
  • Jie Chen,
  • Zhixiang Huang,
  • Huiyao Wan,
  • Runfan Xia,
  • Bocai Wu,
  • Long Sun,
  • Mengdao Xing

DOI
https://doi.org/10.3390/rs14081908
Journal volume & issue
Vol. 14, no. 8
p. 1908

Abstract

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As an active microwave device, synthetic aperture radar (SAR) uses the backscatter of objects for imaging. SAR image ship targets are characterized by unclear contour information, a complex background and strong scattering. Existing deep learning detection algorithms derived from anchor-based methods mostly rely on expert experience to set a series of hyperparameters, and it is difficult to characterize the unique characteristics of SAR image ship targets, which greatly limits detection accuracy and speed. Therefore, this paper proposes a new lightweight position-enhanced anchor-free SAR ship detection algorithm called LPEDet. First, to resolve unclear SAR target contours and multiscale performance problems, we used YOLOX as the benchmark framework and redesigned the lightweight multiscale backbone, called NLCNet, which balances detection speed and accuracy. Second, for the strong scattering characteristics of the SAR target, we designed a new position-enhanced attention strategy, which suppresses background clutter by adding position information to the channel attention that highlights the target information to more accurately identify and locate the target. The experimental results for two large-scale SAR target detection datasets, SSDD and HRSID, show that our method achieves a higher detection accuracy and a faster detection speed than state-of-the-art SAR target detection methods.

Keywords