2015年3月磁暴期间FY3C掩星探测仪数据响应分析
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- 英文论文题名:The response analysis of products of FY3C GNSS occultation sounder during a magnetic storm in March 2015
- 论文作者:孙越强 ; 白伟华 ; 王国军 ; 杜起飞 ; 王先毅 ; 王冬伟 ; 孟祥广 ; 夏俊明 ; 蔡跃荣 ; 柳聪亮 ; 李伟 ; 吴春俊 ; 赵丹阳 ; 刘成
- 英文论文作者:Sun Yueqiang ; Bai Weihua ; Wang Guojun ; Du Qifei ; Wang Xianyi ; Wang Dongwei ; Meng Xiangguang ; Xia Junming ; Cai Yuerong ; Liu Congliang ; Li Wei ; Wu Chunjun ; Zhao Danyang ; Liu Cheng ; National Space Science Center ; Chinese Academy of Science
- 年:2017
- 作者机构:中国科学院国家空间科学中心;
- 论文关键词:GNSS掩星 ; 无线电掩星 ; 磁暴
- 英文论文关键词:GNSS ; Radio occultation ; magnetic storm
- 会议召开时间:2017-09-27
- 会议录名称:第34届中国气象学会年会 S1 灾害天气监测、分析与预报
- 语种:中文
- 分类号:P352.7
- 学会代码:ZGQX
- 会议名称:第34届中国气象学会年会
- 会议地点:中国河南郑州
- 主办单位:中国气象学会
- 学会名称:中国气象学会
- 页数:2
- 文件大小:144k
- 原文格式:D
- 会议级别:全国
摘要
近年来,GNSS掩星探测技术作为二十一世纪最先进的空间探测技术之一迅速发展起来,GNSS无线电掩星探测具有全天候、全球覆盖、高垂直分辨率、高精度、高长期稳定性、无需标定等诸多优点。利用GNSS掩星探测电离层数据产品,可以极大地丰富电离层观测数据,为空间天气的监测、预报、建模、研究提供服务。本文初步开展了掩星探测仪对磁暴、电离层暴等空间灾害性事件的探测研究。在这次研究中,对搭载在风云3-C(FY3-C)卫星上的GNSS掩星探测仪(GNOS)数据进行了分析,对比了GNOS电离层的观测数据与地基电离层探测仪的观测数据,分析了GPS对Nm F2层(最大电子密度)的探测结果与BDS对Nm F2层的探测结果的相关性,研究了2015年3月份的电离层磁暴事件,结果显示,GNOS电离层的观测结果与地基电离层探测仪的观测结果具有一致性,GPS与BDS Nmf2层观测数据的相关系数高于0.9、标准偏差小于20%,FY3C掩星探测各级产品对磁暴事件均有不同程度的响应特性。这次研究进一步说明了FY3-C GNOS载荷数据的可靠性,证实了GNOS载荷数据与电离层实际情况的一致性,为未来GNOS载荷数据在电离层研究与预报方面的应用打下了基础。
GNSS radio occultation technique(GNSS RO) is known as one of the most advanced space exploration technology in 21 st century, and it is developing very fast in recent years. GNSS RO is a technology with high vertical resolution, high accuracy, long-term stability, all-weather, global distributed, unnecessary to do calibration and so no. GNSS RO products can provide a better service for ionospheric weather monitoring, forecasting, modeling, and research. This paper talk about the response feature of the products in all level of FY3 C GNSS occultation sounder during a severe magnetic storm in March, 2015, and carry out the preliminary detection study of the space disaster weather event, e.g. magnetic storm and ionoshperic storm, using GNSS occultation detector.
GNSS radio occultation technique(GNSS RO) is known as one of the most advanced space exploration technology in 21 st century, and it is developing very fast in recent years. GNSS RO is a technology with high vertical resolution, high accuracy, long-term stability, all-weather, global distributed, unnecessary to do calibration and so no. GNSS RO products can provide a better service for ionospheric weather monitoring, forecasting, modeling, and research. This paper talk about the response feature of the products in all level of FY3 C GNSS occultation sounder during a severe magnetic storm in March, 2015, and carry out the preliminary detection study of the space disaster weather event, e.g. magnetic storm and ionoshperic storm, using GNSS occultation detector.
引文