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一种无锚旋转框遥感图像船只目标检测算法OA

An anchor-free rotated box remote sensing image ship object detection algorithm

中文摘要英文摘要

精准高效的船只目标检测在确保海洋利益和构建海洋强国中发挥着重要作用,其现实价值显著.然而,现有的基于可见光遥感图像的船只检测算法大多依赖于锚框,计算量大、超参数多且算法的泛化能力有限.尽管自然图像目标检测算法通过采用无锚的方法改进了这些问题,但大部分只能实现水平框目标检测,无法应对船只目标形状狭长、角度分布不同和排列紧密等特点.针对这些问题,设计一种无锚旋转框遥感图像船只目标检测算法.在CenterNet的基础上,针对遥感图像船只检测任务,提出一种基于分布先验的置信度系数预测分支来产生更高质量的正样本;一种基于双曲激活的角度预测分支来限制角度的输出空间,得到更准确度旋转角度表示;同时,该算法采用柔性正负样本标签分配策略,以提供动态的精细化的监督信息,加速网络的收敛.在HRSC2016数据集上的实验验证了所设计算法相比与其他先进对比算法的优越性,并证实了所设计的各模块的有效性.

Accurate and efficient ship detection plays a crucial role in safeguarding maritime interests and building a maritime powerhouse,with significant practical value.However,anchor boxes are the mainstay of current ship detection algorithms based on optical remote sensing images.These algorithms have limited generalization capabilities,a high computational resource requirement,and a huge number of hyperparameters.Although natural image object detection algorithms have improved these issues by adopting anchor-free methods,they can only achieve horizontal box detection and are unable to handle the unique characteristics of ship targets,such as elongated shapes,varying angles,and tight arrangements.To address these issues,this paper designs an anchor-free,single-stage remote sensing image ship detection algorithm.In particular,based on CenterNet,this research suggests a distribution-prior based confidence coefficient prediction branch to produce higher quality positive samples for the ship detection job.More precise rotation angle representation is achieved by limiting the output space of angles using a hyperbolic activation-based angle prediction branch.The use of a variable positive-negative sample label assignment technique can speed up network convergence by providing dynamic,fine-tuned supervision information.Experiments on the HRSC2016 dataset validate the superiority of the proposed algorithm compared to other advanced algorithms and confirm the effectiveness of each module.

李露;陈科研;刘辰阳;史振威

北京航空航天大学 宇航学院,北京 100191北京航空航天大学 宇航学院,北京 100191北京航空航天大学 宇航学院,北京 100191北京航空航天大学 宇航学院,北京 100191

航空航天

遥感图像光学遥感图像船只目标检测无锚检测器旋转框目标检测

remote sensing imageoptical remote sensing imageship object detectionanchor-free detectorrotated box object detection

《北京航空航天大学学报》 2026 (3)

706-712,7

国家自然科学基金(62271018)北京航空航天大学教改项目:航天信息工程专业综合实验教学改革(2023-15-02-08) National Natural Science Foundation of China(62271018)Teaching Reform Project of Beihang University:Comprehensive Experimental Teaching Reform of Aerospace Information Engineering(2023-15-02-08)

10.13700/j.bh.1001-5965.2023.0852

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