夏俊明1,2,3,
白伟华1,2,3,,,
孙越强1,2,3,
杜起飞1,2,3,
骆黎明1,2,3
1. 中国科学院大学, 北京 100049
2. 中国科学院国家空间科学中心, 北京 100190
3. 天基空间环境探测北京市重点实验室, 北京 100190
基金项目: 国家重点研发计划重点专项项目(2017YFB0502800, 2017YFB0502802)和国家自然科学基金青年科学基金项目(41606206, 41405039, 41405040, 41505030)资助
详细信息
作者简介: 刘黎军, 男, 1975年生, 中国科学院大学在读博士研究生, 从事GNSS-R技术的海洋应用研究.E-mail:liulijun@nssc.ac.cn
通讯作者: 白伟华, 男, 1982年生, 研究员, 从事GNSS遥感技术的应用研究.E-mail:bjbwh@163.com
中图分类号: P229;P407收稿日期:2017-11-03
修回日期:2018-11-20
上线日期:2019-02-15
Influence of evaporation duct on the effective scattering region of GNSS reflected signals on the sea surface
LIU LiJun1,2,3,,XIA JunMing1,2,3,
BAI WeiHua1,2,3,,,
SUN YueQiang1,2,3,
DU QiFei1,2,3,
LUO LiMing1,2,3
1. The university of Chinese Academy of Sciences, Beijing 100049, China
2. National Space Science Center, Chinese Academy of Sciences, Beijing 100190, China
3. Beijing Key Laboratory of Space Environment Exploration, Beijing 100190, China
More Information
Corresponding author: BAI WeiHua,E-mail:bjbwh@163.com
MSC: P229;P407--> Received Date: 03 November 2017
Revised Date: 20 November 2018
Available Online: 15 February 2019
摘要
摘要:蒸发波导在海洋低空的发生概率高达90%,对舰船雷达、通信等电磁系统具有重要影响.为了分析利用GNSS卫星海面反射信号的时延-相关功率波形反演蒸发波导的可行性,本文提出了GNSS卫星海面反射信号的有效散射区域的概念,并将有效散射区域内的GNSS反射信号区分为GNSS标准反射信号和GNSS波导反射信号;然后,利用射线追踪方法,仿真分析了GNSS卫星海面反射信号的有效散射区域大小对蒸发波导的关键参数——波导高度的敏感性,并分析了在时延-相关功率波形上利用反射信号的传播时延将二者分离开的可行性.结果表明,GNSS卫星海面反射信号的有效散射区域对蒸发波导高度非常敏感,对于2~25 m高的GNSS反射信号接收天线,当蒸发波导的高度由0 m增加至20 m时,GNSS反射信号有效散射区域半径的均值可由约14 km迅速扩展至约160 km;采用高度角足够大的GNSS卫星可以将有效散射区内的GNSS标准反射信号与GNSS波导反射信号在时延-相关功率波形上分离开.
关键词: 蒸发波导/
GNSS海面反射信号/
射线追踪/
有效散射区域
Abstract:The occurrence probability of evaporation duct, which has significant influence on the ship-borne radar, communication and other electromagnetic systems, is as great as 90% at low altitude marine atmosphere. In order to analyze the feasibility of retrieving the evaporative duct using the delay-correlation power mapping of the GNSS sea surface reflected signals, the concept of the effective scattering region of the GNSS sea surface reflected signals was proposed, and these signals in the effective scattering region were divided into GNSS standard reflected signals and GNSS duct reflected signals. Then, the sensitivity of the effective scattering region of the GNSS sea surface reflected signals to the key parameter of the duct, the evaporation duct height, was analyzed utilizing the ray tracing method. And the feasibility of separating GNSS duct reflected signals from GNSS standard reflected signals was analyzed as well. The results show that the effective scattering region of the GNSS reflected signals is very sensitive to the evaporation duct height. When the evaporation duct height increases from 0 m to 20 m, the mean effective scattering region radius could be rapidly extended from about 14 km to about 160 km with GNSS receiver antenna height varying from 2 m to 25 m. The GNSS standard reflection signals in the effective scattering region could be separated from the GNSS duct signals when the GNSS satellite's elevation angel is large enough.
Key words:Evaporation duct/
GNSS sea surface reflected signal/
Ray tracing/
Effective scattering region
PDF全文下载地址:
http://www.geophy.cn/data/article/export-pdf?id=dqwlxb_14859