基于航迹特征原型选择的军民船双分支融合识别

张　鑫; 王海斌; 莫嘉倩; 史华莹; 刘　钢

引用本文:	张　鑫，王海斌，莫嘉倩，史华莹，刘　钢. 基于航迹特征原型选择的军民船双分支融合识别[J]. 雷达科学与技术, 2026, 24(1): 99-109.[点击复制]
	ZHANG Xin， WANG Haibin， MO Jiaqian， SHI Huaying， LIU Gang. Dual⁃Branch Fusion Recognition of Military and Civilian Vessels Based onTrajectory Feature Prototype Selection[J]. Radar Science and Technology, 2026, 24(1): 99-109.[点击复制]

【打印本页】【下载PDF全文】【查看/发表评论】【下载PDF阅读器】【关闭】

←前一篇|后一篇→

过刊浏览高级检索

本文已被：浏览 378次下载 8次	码上扫一扫！
分享到：微信更多字体:加大+\|默认\|缩小-
基于航迹特征原型选择的军民船双分支融合识别
张　鑫，王海斌，莫嘉倩，史华莹，刘　钢
1.中国人民解放军92728部队，上海 200436;2.中国人民解放军91306部队，上海 200436

摘要:

雷达对海面军民目标的精确分类识别，是海面态势信息生成的坚实基础，对维护海上安全具有重要意义。当前研究多基于航迹特征识别军民船，而现有方法或依赖单帧静态特征，难以应对军船伪装行为；或采用单一深度时序模型，易受噪声干扰。为解决上述问题，本文提出一种基于航迹特征原型选择的军民船双分支融合识别方法。本方法采用特征数据原型选择方法缓解类别不均衡问题，并构建静态分支与时空分支，分别处理瞬时特征与时序模式，其中时空分支设计一种自适应膨胀卷积时序卷积网络，能根据航迹局部平滑度动态调整感受野，高效捕获战术机动模式；最后采用自适应置信加权机制，结合证据融合机制，实现上下文感知的证据融合。所提方法在真实航迹数据集上军船识别准确率达到95.2%。

关键词: 航迹特征原型选择军民船识别时序卷积网络双分支融合

DOI：DOI:10.3969/j.issn.1672-2337.2026.01.011

分类号:TN973

基金项目:国家自然科学基金（52306059）

Dual⁃Branch Fusion Recognition of Military and Civilian Vessels Based onTrajectory Feature Prototype Selection

ZHANG Xin， WANG Haibin， MO Jiaqian， SHI Huaying， LIU Gang

1. Unit 92728 of PLA， Shanghai 200436， China;2. Unit 91306 of PLA， Shanghai 200436， China

Abstract:

The accurate classification and recognition of maritime military and civilian targets by radar plays a foundational role in generating situational awareness of sea surfaces and holds significant importance for maritime security. At present， most of the research is based on trajectory features to identify military and civilian vessels， while the existing methods rely on single?frame static features， which is difficult to deal with the camouflage behavior of military vessels. Or employing single deep temporal models that are susceptible to noise interference. To address these challenges， this paper proposes a dual?branch fusion recognition framework for military and civilian vessels based on trajectory feature prototype selection. The method first employs a feature data prototype selection strategy to mitigate category imbalance problems. Then， two parallel branches are constructed: a static branch for instantaneous feature processing and a spatio?temporal branch for temporal pattern analysis. Notably， the spatio?temporal branch incorporates an adaptive dilated convolutional temporal convolutional network that dynamically adjusts its receptive field according to local trajectory smoothness， enabling efficient capture of tactical maneuver patterns. Finally， an adaptive confidence weighting mechanism combined with Dempster?Shafer evidence theory is implemented to achieve context?aware evidence fusion. Experimental results on the real trajectory dataset demonstrate that the proposed approach achieves the accuracy of 95.2% in the identification of military vessels.

Key words: trajectory features prototype selection military and civilian vessel recognition temporal convolutional network dual⁃branch fusion