中国空间科学技术 ›› 2022, Vol. 42 ›› Issue (2): 125-133.doi: 10.16708/j.cnki.1000-758X.2022.0030

• 捕风一号专栏 • 上一篇    

基于GMF方法的捕风一号风速反演分析

范东栋,卢敏健,陈趁新,高涵,尉昊赟   

  1. 1航天东方红卫星有限公司,北京100094
    2清华大学 精密仪器系,北京100084
  • 出版日期:2022-04-25 发布日期:2022-03-30

Wind speed retrieval for BF-1 GNSSR satellites using geophysical model function method

 FAN Dongdong,LU Minjian,CHEN Chenxin,GAO Han,WEI Haoyun   

  1. 1Dongfanghong Satellite Co., Ltd.,Beijing 100094, China
    2Department of Precision Instrument, Tsinghua University, Beijing 100084, China
  • Published:2022-04-25 Online:2022-03-30

摘要: 全球尺度高时空分辨率海面风场探测是当前全球气象研究及预报预测领域的关注热点之一,传统海面风场探测技术存在测量区域有限,且受天气环境限制明显等问题。基于全球导航卫星系统反射(GNSSR)测量技术风速反演原理,以捕风一号1级数据产品为输入,欧洲中期天气预报中心再分析风速数据为参考风速,采用地球物理模型函数(GMF)方法构建风速反演模型。分析了1级产品中不同参量,如卫星、观测天线、镜面点入射角、信噪比等,对观测特征量与风速的影响,确定了GMF经验模型分类和筛选方案并完成模型建立。对所生成的风速反演数据及其统计特性与飓风卫星导航系统(CYGNSS)相应数据进行了比对分析,表明反演风速以及反演偏差关于入射角、参考风速的分布特性均与CYGNSS数据趋势一致。初步展示了捕风一号卫星风速探测能力,可为后续探测性能提升和星座发展提供参考。

关键词: 全球导航卫星系统反射测量, 延迟多普勒映射图, 地球物理模型函数法, 风速反演, 归一化双基雷达散射截面

Abstract: Global-scale high temporal and spatial resolution sea surface wind field detection is currently one of the hotspots in global meteorological research and forecasting. In traditional sea surface wind field detection technology, the measurement area is limited, and it is severely restricted by the weather condition. Based on the principle of wind speed retrieval from global navigation satellite system-reflectometry(GNSS-R), the wind speed retrieval model was constructed using the geophysical model function(GMF) method with the level 1 data of BF-1 as input and the wind speed data reanalyzed by the European center for mediumrange weather forecasts (ECMWF) as the reference wind speed. This paper analyzed the influence of different parameters of the level 1 product, such as satellite, observation antenna, specular incident angle, signal-to-noise ratio, etc., on the observation characteristics and wind speed, determined the GMF empirical model parameters and completed the model establishment. The generated retrieved wind speed data and their statistical characteristics were compared and analyzed with the results of cyclone global navigation satellite system(CYGNSS). The retrieved wind speed and the distribution characteristics of the retrieval deviation with respect to the incident angle and the reference wind speed are all consistent with the trend of CYGNSS results. This work preliminarily demonstrates the wind speed detection capability of the BF-1 satellite, which can provide a reference for subsequent detection performance improvement and constellation development.

Key words: global navigation satellite system-reflection, delay-Doppler mapping, geophysical model function, wind speed retrieval, normalized bistatic radar cross-section