li bai beijing , 100081, libai@cma 2012/10/16
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Li Bai
Beijing, 100081,libai@cma.gov.cn
2012/10/16
The Auxiliary Remote Sensing Observation Data Analysis of 8th Yangjiang International Radiosonde Intercomparison
Main Content
The Experiment Design and Brief Introduction
Brief Description of the test results
Atmospheric Structure and Process Observation
in South China Sea Areas
Summary
The Major Objective of the Experiment
Cloud Radar
Micro Pulse LidarGPS/Met
3 Km Wind Profiler
X Band Doppler Radar
S band Doppler Radar
In order to improve the scientific value of this test, Meteorological Observation Center of China Meteorological Administration (CMA) co-held a remote-sensing observation experiment in Yangjiang during the corresponding period together with more than 10 meteorological observation technology research institutes and equipment manufacturers.
The Major Objective of the Experiment
By comparing the observation data from radiosondes and various remote equipment,
To analysis and verification is to be done to finish the error analysis and performance evaluation of some China-made remote instruments , such as X-band dual polarization radars, wind profiler radars, cloud radar, MPL and cloud automatic observation equipment and etc. ;
To conduct an integrated observation experiment with the instruments including radiosondes and various remote equipment in the same region,
To do the research on the integrated observation methods of multiple
observation instruments; To research on the evolution characteristics of typical tropical weather
systems by using high quality radiosondes and remote instruments.
All of Participating Auxiliary Remote Sensor Equipments
微波辐射计
风廓线雷达
激光测云仪
微脉冲激光雷达(2部)
毫米波云雷达
激光测风雷达
无线电经纬仪
激光测云仪
扫描式红外天空成像仪
地基红外测云仪 GPS-MET 全天空成
像仪地基全天空云观测仪
全天空成像仪
S波段雷达
X波段双偏振雷达
X波段双偏振雷达
Microwave radiometer
Lidar Ceilometer
Wind Profiler
X-band dual polarization Doppler
radars
Laser Doppler Radar
Ka band Could Radar
Micro Pulse Lidar
X-band dual polarization Doppler
radars
S-band Doppler radars
1 profiler radar, 2 MPLs and 1 microwave radiometer at the sounding release point, 2 Ka-band cloud radar and 2 X-band dual polarization Doppler weather radars at different locations about 3km away from the observing station.
During Total 72 balloons: 24 hours continuously observation for laser
ceilometer, MPL laser radar, GPS/MET, wind profiler , microwave radiometer and other fixed remote equipment.
Total about 60 times for cloud radar and X-band radar followed the globe, observing with RHI model.
Observations for typical convective clouds using cloud radar and X-band radar.
Observations of No. 2 and No. 3 typhoons in 2010.
Participating Instruments and Data Acquisition
The Experiment Design of the Auxiliary Remote Sensor Observation
For the goal of comparison among sounding observations and different remote equipments, it is necessary to realize the synchronism of the observed space, so in order to realize the continuous observation in the same atmospheric column for the same target and continuously obtain the vertical profiles and detailed cloud structure of atmospheric elements (temperature, humidity, pressure and wind),
The layout of X band Doppler radar and Cloud Radar during the Intercomparision in
Yangjiang
The site of Sounding and S band Doppler radar
The site of X band Doppler radar and Ka band cloud radar
The site of X band Doppler radar and Cloud radar
The schematic diagram of synchronism of the observed space
The bird eye view of Yangjiang site
The Airspace and Prevail Wind on Yangjiang Site
Wind Direction Frequency Picture
The shelter picture from eight
directions
The photo from eight directions
Design of layout location on Wind Profiler
1km
2km
3km
1km 2km 3km 4km
1.3km
1.3km
0.89km
0.44km
4.5km
气球
气球漂移轨迹
地平面
风廓线雷达
1km
2km
3km
1km 2km 3km 4km
1.3km
0.89km
0.44km
4.5km
气球
气球漂移轨迹
地平面
风廓线雷达
1km
2km
3km
1km 2km 3km 4km
1.3km
0.89km
0.44km
4.5km
气球
气球漂移轨迹
地平面
风廓线雷达
1km
2km
3km
1km 2km 3km 4km
1.3km
0.89km
0.44km
4.5km
气球
气球漂移轨迹
地平面
风廓线雷达
1km
2km
3km
1km 2km 3km 4km
1.3km
0.89km
0.44km
4.5km
气球
气球漂移轨迹
地平面
风廓线雷达
1km
2km
3km
1km 2km 3km 4km
1.3km
0.89km
0.44km
4.5km
气球
气球漂移轨迹
地平面
风廓线雷达
1km
2km
3km
1km 2km 3km 3km
1.3km
0.89km
0.44km
4.5km
气球
气球漂移轨迹
地平面
风廓线雷达
Get observation data as much as possible in same
space during the sounding
Integrated layout of The remote sensor Equipments
X波段天气雷达
云雷达
风廓线雷达
放球点
X波段天气雷达
云雷达
风廓线雷达
放球点
According to the investigation results , we make two layout scheme as follows:
The first scheme is that all of the auxiliary remoter sensor equipments are located in east side, i.e. in downstream of prevailing wind in Yangjiang;
The second scheme is that all of the auxiliary remoter sensor equipments are located around the sounding site
Scheme I Scheme II
Brief Description of the Test Results
3.1 Verification of the detection performance of radiosondes
This remote-sensing experiment offered very good assistant observation data for global radiosonde intercomparison, playing a significant role for WMO to evaluate the detection performance abilities of the temperature and humidity sensors of various radiosondes.
Assessment on the influence of upper-air infrared radiation
Humidity identification and detection of cloud radar and ceilometer
Vapour measurement comparison between China-made GPS/Met
and radiaosondes
Intercomparison of wind-measuring capabilities of wind profiler and radiosondes
Brief Description of the Test Results
Analysis of night temperature errors from LMS multi-black sensor radiosondes.
(1) Assessment on the influence of upper-air infrared radiation from clouds
The picture is the temperature errors (Black and aluminium coating)
No Cloud
Weak stratiform Cloud
Thick High Cloud
During the experiment ,the cloud can be detected by Ka band cloud radar , it can supply whether the clouds exist . When there are clouds in the stratosphere, typical heat exchange effect of infrared radiation can be produced. Whether it is daytime or nighttime, this effect can cause the temperature of sensors to drop 0.2K and the cooling effect appears even stronger near the tropopause (Shown as Fig. 2).. Auxiliary remote sensor observation supply the valuable data whether cloud exist These results have been adopted by WMO Assessment Report
Brief Description of the Test Results
(2) Humidity observation and identification by using the cloud radar and ceilometer
Fig 3 show that the results of the humidity observation in range of the threshold under the clouds existing ,by using the information obtained by the auxiliary remote equipments,
the cloud observations of cloud radar and ceilometer can also be helpful
to analyze the intracloud hydrometeor particles phase;
to judge whether the radiosondes get frozen so that the observation data is missed.
The valuable results also be adopted by WMO Assessment Report
(3) Vapour measurement comparison between China-made GPS/Met and radiaosondes
The results show that the system error values of the radiosondes in daytime and nighttime were obtained, which proves again that in the past international intercomparisons of the radiosondes which detected smaller difference of vapour values between day and night in the lower troposphere show smaller gap between the day and
night values when compared with GPS.
Brief Description of the Test Results
The Fig show that System deviations of humidity data detected by all types of radiosondes compared to the GPS/Met vapour amount in Yangjiang, Enping and Yangchun stations.
Brief Description of the Test Results
(4) Intercomparison of wind-measuring capabilities Between wind profiler and radiosondes
During the Yangjiang EXPERIMENT , wind profiler data, during launching of 62 balloons is used to compare to the wind measurement data between the radiosondes and wind profiler.
In addition to evaluating the difference of wind-measuring capabilities of radiosondes and to analyzing the performance and capability of wind measurement of wind profilers by taking the sounding data for reference.
The usable results similarly were adopted by WMO Assessment Report
3.2 Evaluation on the performance of China-made remote instruments
(1) Evaluation on Ka-band cloud radar and X-band dual polarization
radar (2) Evaluation on Wind Profiler
(3) Evaluation on Micro Pulse Lidar
(4) Evaluation on Microwave radiometer
(5) Evaluation on Doppler wind-lidar
The intercomparsion between the Ka band cloud radar and X band dual polarization for the same target
Fig show that reflectivity Ka cloud radar and X band radar
Fig show that doppler velocity between Ka cloud radar and X band radar
Fig show that spectrum width width between Ka cloud radar and X band radar
Fig show that LDR between Ka cloud radar and X band radar
Wind Profiler : In this test, various radiosondes were compared to the wind profiler. In general, under the 3000-m height, the mean difference and standard deviation of wind measurement of the wind profiler and L-band radar are 1.3m/s and 2.0 m/s respectively while those for wind profiler and GPS are 1.4m/s and 1.9 m/s respectively.
Microwave radiometer The Yangjiang experiment provided quite a good test platform for testing the adaptability of microwave radiometer to local observations and improving the algorithm. On the basis of utilizing the intercomparison of detected bright temperature and simulated bright temperature, we used the detected values and the corresponding sounding samples to adjust the BP neural networks. And finally, the correlation coefficients of temperature and vapour density could respectively reach 0.98579 and 0.92438. Doppler Wind-LidarThe result shows that the existing laser wind radar can detect not only atmospheric wind fields, but also clouds and extinction coefficient. Relative to MPL, the mobile Doppler lidar has much higher power, being able to detect more details of clouds and multi-layer clouds.
3.2 Evaluation on the performance of China-made remote instruments
Evaluation on the performance of other remote sensor instruments
3.2 Evaluation on the performance of China-made remote instruments
Evaluation on the performance of Micro Pulse Lidar
By analyzing the depolarization ratio characteristics, the result show that although there are more clouds in Yangjiang region, the pure ice crystal clouds are not common, and, even in the mixed clouds with ice crystals, the amount of ice crystal is not too many. The depolarization ratio value does not exceed 0.3 essentially. The mixed clouds mainly appear in the upper atmosphere higher than 9 km. The clouds with the cloud base height being 3-9km are mostly pure liquid clouds whose depolarization ratio is very small, almost the same as the depolarization ratio of aerosols at the same height.
Return signals of atmosphere particles and depolarization ratio detected by MPL at 23:00 July 20, 2010 in Yangjiang.
3.3 Research on remote sensing observation algorithm Improvement
The Yangjiang experiment offered a platform to inspect and improve product algorithm for China-made remote sensing instruments. By the intercomparison of the various remote sensing data, some differences among the instruments were discovered and their application capabilities got improved correspondingly.
(1) Improvement of cloud estimating algorithm for radiosondes
(2) Characteristics of cloud particles and verification on water content algorithm
(3) Improvement of quality-control algorithm of X-band polarization radar data
(4) Echo recognition algorithm of X-band polarization radar
(1) Improvement of cloud estimating algorithm for radiosondes
3.3 Research on remote sensing observation algorithm improvement
The information from the remote sensor observation is helpful to improve the estimating algorithm of cloud by using sounding data
0 20 40 60 80 100 120
5
10
15
20
Relative humidity (%)
Heig
ht (k
m)
2010-07-17 14:51
ML-waterML-iceDaqiao-waterMidldle-RHMin-RHMax-RH
The multi-layer structure of cloud could be detected by cloud radar and the result can be used to test the radiosonde.
第 5层
第 4层
第 3层
第 2层
第 1层
Comparsion of observation results between the radiosonde and Ka band cloud radar
(2) Echo recognition algorithm of X-band polarization radar
3.3 Research on remote sensing observation algorithm improvement
Classification of precipitation particles in stratus clouds on July 22, 2010.
By using X dual polarization doppler radar, we can make the classification of precipitation particle in stratus including ice crystal ,dry snow , wet snow, drizzle etc.
3.4 Atmospheric structure and process observation in South China Sea areas
. The 0 layer bright band in No. 3 typhoon cloud that X-band radar observed in 2010.℃
Reflectivity Different Reflectivity
Linear depolarization ratio Relative Coefficient
Yangjiang adjoins the South China Sea, having typical atmospheric system structure features. By means of the Yangjiang experiment, all kinds of advanced remote instruments were used to do scientific observations on the typical and characteristic cloud structures and weather systems in this region.
By the analysis on the echo reflectivity and linear depolarization ratio (LDR) of cloud radar, it was found that in different heights the liquid particles are in different sizes and there are up-and-down turbulence motions and obvious fragmentation and evaporation phenomenon inside the clouds. The previous conventional observations could not reveal these findings.
The feature of the boundary structure and land and sea breeze in south sea of China
By using Ka band cloud radar and wind profiler , we cloud obtain the land and sea breeze structure in south sea of china . In daytime , low level blows south wind and high level blows north wind and in night time, it is opposite . This is helpful to verification of the radiosonde observation
Nighttime
Daytime
The equipments of cloud automatic observation on surface supply to the value information for radiosonde
The value information includes amount of cloud and hight of cloud base and etc.
It is helpful to conduct intercomparsion of radiosondes and improve better the equipment of cloud observation .
The ratio of the upper ,middle and low cloud
倾斜上升气流
下曳气流
中层卷入
高层切变
Convective Cloud development detected by Ka Band Cloud radar
By using Ka band cloud observation , we can find many detail structure inside of the cloud , such as :
upper wind shear
slant updraft
the drag downdraft
the involving from middle level
The analysis of convective precipitation during Yangjiang Experiment
During Yangjiang Experiment , the convective cloud evolution was observed by cloud radar and it help to research the weather system
Convergence at low level
Divergence at high level
Existing shear in middle level
Divergence at low level
Development in front of the
cloud
Attenuation in back of the
cloud
The stage of occurrence and development The stage of occurrence and development
Summary
The Yangjiang experiment adopted the Integrated observation model, having done careful observations on the atmospheric structure, cloud classification and convective weather systems in Yangjiang tropical region. The high-precision and successional observation data afford detailed information for the research on the basic characteristics and regular patterns of the atmosphere in this region. Up to now, scientists at home and abroad have utilized these data and conducted various analyses and studies, obtaining abundant achievements in the stage
The Yangjiang experiment was an integrated test in real sense. The test results show that reasonable observation layouts and the scientific united observation model that the experiment adopted will directly influence the analysis and assessment results of the comparison between the remote experiment and radiosondes as well as the intercomparison of remote sensing instruments themselves. We have tried to distribute the instruments for this integrated test reasonably, but there are still many aspects deserving to summarize and study.
In a word, the 8th WMO Intercomparison of Radiosondes and Integrated Remote Instruments Experiment have afforded a new means and try for the remote sensing observation and prepared rich experiences for the future WMO global radiosonde intercomparison and integrated tests.
Any comments or questions will be
welcome!
The Action of the Auxiliary Remote Sensor Observation
Based on the statistics of the WMO Assessment Report, the action as follow :
among the 72 launched balloons, the cloud radar images from 54 balloons can be used. They are used to estimate the probability of radiosondes to go through clouds, helping identify the infrared radiation cooling that the white-painted sensors and black-white sensors have experienced, judging when the radiosondes gets through the cloud top near the tropopause in the process of launching balloons at night and, then, analyzing the variation features of the sensors.
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