宋勇平2,,
崔国龙3,,
郭世盛3,
1.国防科学技术大学电子科学学院 长沙 410073
2.空军预警学院雷达士官学校 武汉 430019
3.电子科技大学信息与通信工程学院 成都 611731
基金项目:国家自然科学基金(61971430)
详细信息
作者简介:金添:金 添(1980–),男,国防科学技术大学教授,博士生导师,研究方向为超宽带雷达成像、隐蔽目标检测识别等。全国百篇优秀博士论文获得者,入选教育部“新世纪优秀人才支持计划”,获国际无线电科学联盟青年科学家奖,评为中国电子学会优秀科技工作者。“信号处理与系统”国家精品课程和资源共享课主讲教师,信号处理系列课程国家级教学团队主要成员。已发表论文100余篇,获授权国家发明专利7项,出版专著3部、译著1部、教材1部。《雷达学报》、《信号处理》、《雷达科学与技术》等期刊编委
宋勇平(1989–),男,空军预警学院雷达士官学校讲师,博士,研究方向为穿墙探测、MIMO雷达成像、微弱目标检测
崔国龙(1982–),男,电子科技大学教授,青年****,博士生导师,《雷达学报》编委。研究方向为最优化理论和算法、雷达目标检测理论、波形多样性以及城市环境目标探测等
郭世盛(1991–),男,电子科技大学特聘副研究员,硕士生导师,研究方向为城市环境遮蔽目标探测、基于雷达的人体行为识别
通讯作者:金添 tianjin@nudt.edu.cn
责任主编:孔令讲 Corresponding Editor: KONG Lingjiang中图分类号:TN957
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出版历程
收稿日期:2020-08-27
修回日期:2020-10-19
网络出版日期:2020-11-02
刊出日期:2021-06-28
Advances on Penetrating Imaging of Building Layout Technique Using Low Frequency Radio Waves
JIN Tian1,,,SONG Yongping2,,
CUI Guolong3,,
GUO Shisheng3,
1. College of Electronic Science, National University of Defense Technology, Changsha 410073, China
2. School of Radar Noncommissioned Officers, Air Force Early Warning Academy, Wuhan 430019, China
3. School of Information and Communication Engineering, University of Electronic Science and Technology of China, Chengdu 611731, China
Funds:The National Natural Science Foundation of China (61971430)
More Information
Corresponding author:JIN Tian, tianjin@nudt.edu.cn
摘要
摘要:在进入陌生建筑物内部之前获取其内部结构信息,能够为反恐作战、灾害救援等多种应用提供服务,具有重要的现实意义和研究价值。低频电磁波能够穿透常见建筑物材料传播,进而安全、稳定、隐蔽地获取墙后目标信息。利用低频电磁波获取墙后信息因此成为建筑物内部结构透视领域的研究重点。为获知该领域的发展脉络,并预测未来可能的发展趋势,该文对21世纪初以来该领域国内外公开文献进行了归纳总结。相关文献的梳理结果表明,利用低频电磁波进行建筑物内部结构穿透探测的技术目前主要包括3类:基于反射波测量的穿墙雷达成像技术、基于透射波测量的射频层析成像技术、基于多径信号的墙体位置估计技术。这3类技术均已取得一定具有实际意义的研究成果。该文围绕这3类技术所涵盖主要内容的发展历程进行了梳理,主要包括穿墙雷达墙后静止目标成像原理、基于穿墙雷达的建筑物内部结构观测模式、基于穿墙雷达成像的建筑物内部结构重建技术、基于射频层析成像的建筑物内部结构反演技术、基于多径信号的墙体位置估计技术,并以此对该领域的发展趋势进行了探讨。总结近20年以来低频电磁波建筑物内部结构透视技术的发展历程,可以发现建筑物内部结构穿透探测平台已由传统的机载、车载平台转向微型机器人、无人机等新型平台,而对应的建筑物内部结构信息重建方法,则由传统的雷达成像技术,发展成包含图像增强、稀疏重构等在内的多种新型方法。这些结果表明,建筑物内部结构透视技术正朝着系统化、多样化、智能化的方向发展。
关键词:建筑物内部结构/
穿透探测/
低频电磁波/
穿墙雷达/
雷达成像/
射频层析成像
Abstract:Obtaining the internal layout of an unfamiliar building before entering the building has important practical significance and research value, as it can be applied for various services, such as anti-terrorism operations and disaster relief. Low-frequency electromagnetic waves can propagate through common building materials, and then the target information behind the wall is obtained safely and stably. Therefore, using low frequency radio waves to obtain the information behind the wall has become the research focus in the field of building layout reconstruction. To reveal the development context of this field and predict the possible future development trends, this paper summarizes the domestic and foreign public literature in this field since the onset of the 21st century. The results of the relevant literature indicate that the techniques of using low-frequency electromagnetic waves to reconstruct building layout currently include three types: through-the-wall radar imaging technology based on reflected wave measurement, radio-frequency tomography technology based on transmitted wave measurement, and wall position estimation technology based on multipath signals. These three technologies have achieved several practical research results. This article clarifies the development history of the main content covered by these technologies, which mainly includes the principle of through-the-wall radar imaging of stationary targets behind the wall, the observation mode of building internal structure based on through-the-wall radar, the reconstruction technology of building internal structure on the basis of through-the-wall radar imaging, the inversion technology of building internal structure on the basis of radio-frequency tomography, and the wall position estimation technology based on multipath signals. We also discuss the development trend of this field. In the past two decades, the development history of building layout penetrating imaging using low-frequency radio waves shows a change from the traditional airborne and vehicle-mounted building-layout-reconstruction platforms to new platforms such as microrobots and unmanned aerial vehicles. The corresponding reconstruction method has been developed from the traditional radar imaging technology to a variety of new methods, including image enhancement and sparse reconstruction. The results indicate that the building-layout-reconstruction technology is developing in the direction of systematization, diversification, and intelligence.
Key words:Building internal layout/
Penetration detection/
Low frequency electromagnetic wave/
Through-the-wall radar/
Radar imaging/
Radio frequency tomography
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