Meteorological applications of precipitable water vapor measurements retrieved by the national GNSS network of China

被引：0

作者：

Liang Hong ^{[1
]}

Cao Yunchang ^{[1
]}

Wan Xiaomin ^{[2
]}

Xu Zhifang ^{[2
]}

Wang Haishen ^{[1
]}

Hu Heng ^{[1
]}

机构：

[1] Meteorological Observations Center, China Meteorological Administration

[2] Numerical Weather Prediction Center, China Meteorological

来源：

Geodesy and Geodynamics | 2015年 / 6卷 / 02期

关键词：

D O I：

暂无

中图分类号：

学科分类号：

摘要：

In this study, the Global Navigation Satellite System(GNSS) network of China is discussed,which can be used to monitor atmospheric precipitable water vapor(PWV). By the end of2013, the network had 952 GNSS sites, including 260 belonging to the Crustal Movement Observation Network of China(CMONOC) and 692 belonging to the China Meteorological Administration GNSS network(CMAGN). Additionally, GNSS observation collecting and data processing procedures are presented and PWV data quality control methods are investigated. PWV levels as determined by GNSS and radiosonde are compared. The results show that GNSS estimates are generally in good agreement with measurements of radiosondes and water vapor radiometers(WVR). The PWV retrieved by the national GNSS network is used in weather forecasting, assimilation of data into numerical weather prediction models, the validation of PWV estimates by radiosonde, and plum rain monitoring.The network is also used to monitor the total ionospheric electron content.

引用

页码：135 / 142

页数：8

共 50 条

[1] Meteorological applications of precipitable water vapor measurements retrieved by the national GNSS network of China
Liang Hong
Cao Yunchang
Wan Xiaomin
Xu Zhifang
Wang Haishen
Hu Heng
GEODESY AND GEODYNAMICS, 2015, 6 (02) : 135 - 142
[2] Meteorological applications of precipitable water vapor measurements retrieved by the national GNSS network of China
Liang Hong
Cao Yunchang
Wan Xiaomin
Xu Zhifang
Wang Haishen
Hu Heng
Geodesy and Geodynamics, 2015, (02) : 135 - 142
[3] Neural Network Approach to Forecast Hourly Intense Rainfall Using GNSS Precipitable Water Vapor and Meteorological Sensors
Benevides, Pedro
Catalao, Joao
Nico, Giovanni
REMOTE SENSING, 2019, 11 (08)
[4] A Real-Time Precipitable Water Vapor Monitoring System Using the National GNSS Network of China: Method and Preliminary Results
Zhang, Hongxing
Yuan, Yunbin
Li, Wei
Zhang, Baocheng
IEEE JOURNAL OF SELECTED TOPICS IN APPLIED EARTH OBSERVATIONS AND REMOTE SENSING, 2019, 12 (05) : 1587 - 1598
[5] GNSS Precipitable Water Vapor Retrieval With the Aid of NWM Data for China
Huang, Liangke
Peng, Hua
Liu, Lilong
Xiong, Si
Xie, Shaofeng
Chen, Jun
Li, Junyu
He, Hongchang
EARTH AND SPACE SCIENCE, 2021, 8 (09)
[6] Constructing a precipitable water vapor map from regional GNSS network observations without collocated meteorological data for weather forecasting
Chen, Biyan
Dai, Wujiao
Liu, Zhizhao
Wu, Lixin
Kuang, Cuilin
Ao, Minsi
ATMOSPHERIC MEASUREMENT TECHNIQUES, 2018, 11 (09) : 5153 - 5166
[7] Evaluation of rainfall forecasts combining GNSS precipitable water vapor with ground and remote sensing meteorological variables in a neural network approach
Benevides, P.
Catalao, Joao
Nico, Giovanni
Miranda, Pedro M. A.
REMOTE SENSING OF CLOUDS AND THE ATMOSPHERE XXIII, 2018, 10786
[8] Analyzing correlations between GNSS retrieved precipitable water vapor and land surface temperature after earthquakes occurrence
Guo, Ao
Xu, Yan
Jiang, Nan
Wu, Yuhao
Gao, Zhaorui
Li, Song
Xu, Tianhe
Bastos, Luisa
SCIENCE OF THE TOTAL ENVIRONMENT, 2023, 872
[9] Retrieval of Precipitable Water Vapor Using GNSS Data Under Conditions Without Collocated Meteorological Observations
Li, Zhaozhe
Dai, Wujiao
Chen, Biyan
Wen, Yaxin
CHINA SATELLITE NAVIGATION CONFERENCE (CSNC) 2019 PROCEEDINGS, VOL I, 2019, 562 : 40 - 51
[10] Variations of precipitable water vapor using GNSS CORS in Thailand
Trakolkul, Chokchai
Satirapod, Chalermchon
SURVEY REVIEW, 2021, 53 (376) : 90 - 96

← 1 2 3 4 5 →