全球导航卫星系统反射信号GNSS-R(Global Navigation Satellite System Reflection)可以用来探测海面状态,如海面有效波高。介绍了利用GNSS反射信号测量海面有效波高的观测设备和技术原理,对2009年博贺实验的数据进行了分析,证实了反射...全球导航卫星系统反射信号GNSS-R(Global Navigation Satellite System Reflection)可以用来探测海面状态,如海面有效波高。介绍了利用GNSS反射信号测量海面有效波高的观测设备和技术原理,对2009年博贺实验的数据进行了分析,证实了反射信号相关复数场的有效相关时间与有效波高之间存在相关,利用前期观测的数据进行拟合,得出反演公式,并与测波雷达数据进行了结果对比,平均误差0.136m,相对偏差12.02%,均方根偏差0.169m。展开更多
This study uses numerical simulations to examine a case of sea fog that was observed from 20 to 22 March2011 on the southern China coast. The observation dataset includes observatory data, cloud-top temperature from M...This study uses numerical simulations to examine a case of sea fog that was observed from 20 to 22 March2011 on the southern China coast. The observation dataset includes observatory data, cloud-top temperature from MODIS, GPS sonde, and data from the Integrated Observation Platform for Marine Meteorology(IOPMM). The simulations are based on the Weather Research and Forecasting(WRF) model with four distinct parameter settings.Both the observations and simulations focus on the characteristics of the fog extent, boundary layer structure, and meteorological elements near the air-sea interface. Our main results are as follows:(1) The extent of mesoscale sea fog can be well simulated when the sea surface temperature has at least 0.5 ×0.5 horizontal resolution.(2) To accurately model the vertical structure of the sea fog, particularly the surface-based inversion, vertical levels must be added in the boundary layer.(3) When these model conditions are met, the simulations faithfully reproduce the measured downward shortwave radiation, downward longwave radiation, and surface sensible heat flux during the sea fog period.展开更多
文摘全球导航卫星系统反射信号GNSS-R(Global Navigation Satellite System Reflection)可以用来探测海面状态,如海面有效波高。介绍了利用GNSS反射信号测量海面有效波高的观测设备和技术原理,对2009年博贺实验的数据进行了分析,证实了反射信号相关复数场的有效相关时间与有效波高之间存在相关,利用前期观测的数据进行拟合,得出反演公式,并与测波雷达数据进行了结果对比,平均误差0.136m,相对偏差12.02%,均方根偏差0.169m。
基金National Natural Science Foundation of China(4127502541175013)+2 种基金Guangdong Science and Technology Plan Project(2008030303072,2012A061400012)Meteorological Sciences Research Project(2013B06,2013Q04,2014B08)Early Warning and Forecasting Technology for Marine Meteorology of the Guangdong Meteorological Bureau
文摘This study uses numerical simulations to examine a case of sea fog that was observed from 20 to 22 March2011 on the southern China coast. The observation dataset includes observatory data, cloud-top temperature from MODIS, GPS sonde, and data from the Integrated Observation Platform for Marine Meteorology(IOPMM). The simulations are based on the Weather Research and Forecasting(WRF) model with four distinct parameter settings.Both the observations and simulations focus on the characteristics of the fog extent, boundary layer structure, and meteorological elements near the air-sea interface. Our main results are as follows:(1) The extent of mesoscale sea fog can be well simulated when the sea surface temperature has at least 0.5 ×0.5 horizontal resolution.(2) To accurately model the vertical structure of the sea fog, particularly the surface-based inversion, vertical levels must be added in the boundary layer.(3) When these model conditions are met, the simulations faithfully reproduce the measured downward shortwave radiation, downward longwave radiation, and surface sensible heat flux during the sea fog period.