RETRIEVAL OF ELECTRON DENSITY PROFILE FOR KOMPSAT-5 GPS RADIO OCCULTATION DATA PROCESSING SYSTEM

An objective of the GRACE-FO mission is the continuation of GRACE radio occultation measurements successfully performed between 2006 and 2017. GRACE and GRACE-FO radio occultations contribute to the overall radio occultation dataset used in weather and climate applications. Since mid-2019 rising occultations from GF1 are available while setting radio occultations from GF2 are still disabled. After several on-board software updates and raw data reader improvements about 280 daily GF1 radio occultations are available since March 2020. Currently GF1 radio occultation data are processed on the basis of different measured variables: For different GPS satellites a combination of L1CA/L2P, L1CA/L2C, or L1CA/L5 is available. In this study first results of GF1 processing are presented. Refractivity and temperature data up to an altitude of 60 km will be compared with ECMWF operational analyses and the quality of the different measured variables will be evaluated.

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The Assimilation of GPS Radio Occultation Data and its Impact on Rainfall Prediction along the West Coast of India during Monsoon 2002

Pageoph Topical Volumes - Atmospheric and Oceanic ◽

10.1007/978-3-7643-8493-7_8 ◽

2008 ◽

pp. 1577-1591

Author(s):

Ching-Yuang Huang ◽

Ying-Hwa Kuo ◽

Shu-Ya Chen ◽

Anisetty S. K. A. V. Prasad Rao ◽

Chien-Ju Wang

Keyword(s):

West Coast ◽

Radio Occultation ◽

The West ◽

Gps Radio Occultation ◽

West Coast Of India ◽

Rainfall Prediction ◽

Occultation Data ◽

Radio Occultation Data

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GPS Radio Occultation Data Assimilation in the AREM Regional Numerical Weather Prediction Model for Flood Forecasts

Advances in Meteorology ◽

10.1155/2018/1376235 ◽

2018 ◽

Vol 2018 ◽

pp. 1-9

Author(s):

Wei Cheng ◽

Youping Xu ◽

Zhiwu Deng ◽

Chunli Gu

Keyword(s):

Data Assimilation ◽

Radio Occultation ◽

Weather Prediction ◽

Radiosonde Data ◽

Light Rain ◽

Gps Radio Occultation ◽

Study Results ◽

Occultation Data ◽

Radio Occultation Data

Based on the Backward Four-Dimensional Variational Data Assimilation (Backward-4DVar) system with the Advanced Regional Eta-coordinate Model (AREM), which is capable of assimilating radio occultation data, a heavy rainfall case study is performed using GPS radio occultation (GPS RO) data and routine GTS data on July 5, 2007. The case study results indicate that the use of radio occultation data after quality control can improve the quality of the analysis to be similar to that of the observations and, thus, have a positive effect when improving 24-hour rainfall forecasts. Batch tests for 119 days from May to August during the flood season in 2009 show that only the use of GPS RO data can make positive improvements in both 24-hour and 48-hour regional rainfall forecasts and obtain a better B score for 24-hour forecasts and better TS score for 48-hour forecasts. When using radio occultation refractivity data and conventional radiosonde data, the results indicate that radio occultation refractivity data can achieve a better performance for 48-hour forecasts of light rain and heavy rain.

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