期刊文献+

全球总闪电的天基光学实时探测技术综述

Review of Real-Time Space-Based Optical Detection Technology for Global Total Lightning
原文传递
导出
摘要 强对流天气是发生最频繁、影响最广泛的气象灾害,造成了巨大经济损失,严重威胁人民和社会安全,更是航空航天和信息通信等技术领域的重大威胁。闪电作为全球性强对流天气的典型要素,对强对流具有重要指示作用,因此闪电探测和强对流预警预报成为天基遥感的重要任务之一。系统地总结了闪电危害,闪电探测体系的发展历程和现状,天基闪电光学探测的技术难点、实现途径和发展现状;同时详细阐述了我国FY-4A闪电成像仪技术实现途径及在轨应用成果。FY-4A闪电成像仪利用时间滤波、空间滤波、超窄带光谱滤波、星上时空域多维融合点目标检测等多维技术实现了天基闪电光学探测载荷的研制与在轨应用,国内气象部门和众多科研院所利用FY-4A闪电成像仪的闪电探测结果实现了强对流灾害的精确预警预报,产生了重大经济效益与社会效益。最后,针对目前闪电探测体系存在的问题,分析了我国未来天基闪电探测系统的发展趋势,为我国后续闪电探测发展提供了参考。 Significance Severe convective disasters are the most frequent and widely affected meteorological disasters,causing huge economic losses and posing a serious threat to people and social security.They are also a major threat to new technological fields such as aerospace and information communication.Lightning,as a typical element of global severe convective weather,plays an important role in indicating and warning strong convection.Therefore,lightning detection and warning of severe convective disasters have become one of the important tasks of space remote sensing.Lightning detection systems mainly include ground-based and space-based detection systems.The ground-based lightning detection system mainly detects and locates broadband electromagnetic radiation signals emitted by lightning strikes,with detection spectral bands mainly including very low frequency(VLF),low frequency(LF),and very high frequency(VHF)bands.The ground-based lightning detection system has developed early and matured in technology,forming a relatively complete business system that plays an important role in lightning warning and forecasting.However,due to the discontinuous station layout of the ground-based lightning detection system and the barrier in mountainous areas,it is unable to effectively carry out uninterrupted lightning detection globally,especially in marine and mountainous areas.In order to overcome the limitations of ground-based lightning detection,space-based lightning detection technology has rapidly developed.The space-based lightning detection system has advantages such as large coverage range and is not limited by ground conditions.Among them,geostationary orbit lightning detection has unique advantages such as 24-hour uninterrupted and high real-time performance,and has become the main direction of international research on space-based lightning detection.It is a priority for the development of space-based lightning detection methods.The ground-based lightning detection system,low orbit and high orbit space-based lightning detection systems,and other lightning detection methods complement each other,achieving 24-hour uninterrupted,high-precision,and real-time detection of lightning,jointly serving strong convective disaster warning and prediction and climate research.Progress In the research of space-based lightning optical detection,the United States was the earliest to conduct research,with a leading position in depth and breadth.Through the development of low orbit space-based lightning detection cameras optical transient detecter(OTD)and lightning imaging sensor(LIS),the United States ultimately achieved the development of a geostationary orbit lightning detection camera GOES-16 GLM(geostationary lightning mapper),which was launched in November 2016.At the same time,Europe and China directly conducted research and development on geostationary orbit lightning detection cameras.China launched FY-4A LMI(lightning mapping imager)in December 2016,and Europe launched MTG LI(lightning imager)in December 2022.Currently,all three geostationary orbit lightning detection cameras are in orbit.Due to the fact that lightning usually occurs in strong convective cloud systems,the background formed by reflected sunlight on land,oceans,and clouds has complex,gradual changes,and high-intensity characteristics.Lightning often occurs in areas with clouds,and its intensity and location are random,with short duration and significant differences in intensity.These characteristics make space-based lightning detection cameras significantly different from traditional imaging cameras and point target warning cameras.It has extremely development difficulty(Fig.9 and 10).FY-4A LMI is a geostationary orbit FY-4A LMI with independent intellectual property rights,developed by combining the spectral characteristics of background,lightning and its noise(Fig.13),spatiotemporal characteristics(Fig.11 and 12),and their variation patterns.It adopts multiple core technologies such as time filtering,spatial filtering,ultra narrowband spectral filtering(Fig.15),and multi-dimensional fusion point target detection in spacetime and space(Fig.16).It was launched in December 2016 and applied in orbit meteorological applications.Domestic meteorological departments,numerous research institutes,and universities have utilized the lightning detection results of FY-4A LMI to conduct research and applications on lightning generation and development mechanisms,typhoon monitoring and forecasting,severe convective disaster forecasting,and lightning data assimilation.Accurate prediction and early warning of lightning,severe convective disasters,and their secondary disasters have been achieved(Fig.18),resulting in huge social and economic benefits and broad application prospects.Conclusions and Prospect China has already achieved the detection and meteorological application of lightning below the troposphere in geostationary orbit,but there is still a significant gap in high-precision positioning,refined detection,intelligent detection,and real-time application of lightning below the troposphere.At the same time,China has not yet established an effective atmospheric lightning in the stratosphere,mesosphere and thermosphere(TLEs,transient luminous events)detection system,especially a space-based detection system that has not been planned.Therefore,in the field of lightning below the troposphere detection,we should gradually develop towards three-dimensional high-precision detection,intelligent detection,on-demand independent planning and application closed-loop.In the detection of lightning in the stratosphere,mesosphere and thermosphere(TLEs),research on detection methods and cameras should be carried out in the future to achieve real-time detection and early warning,serving the safety guarantee of China's entry and exiting into the atmosphere and space-based spacecraft.
作者 鲍书龙 李欢 孙凡 陆风 张志清 陈晓杰 唐绍凡 梁华 赵艳华 Bao Shulong;Li Huan;Sun Fan;Lu Feng;Zhang Zhiqing;Chen Xiaojie;Tang Shaofan;Liang Hua;Zhao Yanhua(Environmental Resources and Meteorological Observation Field Office,Beijing Institute of Space Mechanics&Electricity,Beijing 100094,China;Infrared Camera Research Department,Beijing Institute of Space Mechanics&Electricity,Beijing 100094,China;Technology Management Department,Beijing Institute of Space Mechanics&Electricity,Beijing 100094,China;National Satellite Meteorological Center,China Meteorological Administration,Beijing 100081,China;FengYun Meteorological Satellite Engineering Management,China Meteorological Administration,Beijing 100081,China;Meteorological Environment Satellite General Department,Shanghai Academy of Spaceflight Technology,Shanghai 201100,China)
出处 《光学学报》 EI CAS CSCD 北大核心 2024年第2期62-82,共21页 Acta Optica Sinica
基金 风云四号科研试验卫星工程。
关键词 强对流灾害 天基闪电光学探测 时空多维融合 预警预报 闪电探测综述 severe convective disasters space-based lightning optical detection multi-dimensional fusion in spatiotemporal domains early warning and forecasting review of lightning detection
  • 相关文献

参考文献42

二级参考文献407

共引文献651

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部