An Evaluation of Fengyun-3C Radio Occultation Atmospheric Profiles Over 2015–2018

An Evaluation of Fengyun-3C Radio Occultation Atmospheric Profiles Over 2015–2018

Fengyun-3C (FY-3C) is the first Chinese satellite that is capable of using the Radio Occultation (RO) technique to retrieve atmospheric profiles. This research evaluates the quality of FY-3C RO profiles including refractivity, temperature, and specific humidity by comparing with corresponding inform...

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Main Authors: Jinde Wei, Ying Li, Kefei Zhang, Mi Liao, Weihua Bai, Congliang Liu, Yan Liu, Xiaoming Wang
Format: Article
Language:English
Published: MDPI AG 2020-07-01
Series:Remote Sensing
Subjects:
fengyun-3C
GNSS
radio occultation
evaluation
Online Access:https://www.mdpi.com/2072-4292/12/13/2116
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spelling doaj-658bb40d168e45728f4f90a04f0470f02020-11-25T03:55:18ZengMDPI AGRemote Sensing2072-42922020-07-01122116211610.3390/rs12132116An Evaluation of Fengyun-3C Radio Occultation Atmospheric Profiles Over 2015–2018Jinde Wei0Ying Li1Kefei Zhang2Mi Liao3Weihua Bai4Congliang Liu5Yan Liu6Xiaoming Wang7School of Environment Science and Spatial Informatics, China University of Mining and Technology (CUMT), Xuzhou 221116, ChinaState Key Laboratory of Geodesy and Earth’s Dynamics, Innovation Academy for Precision Measurement Science and Technology (APM), Chinese Academy of Sciences (CAS), Wuhan 430071, ChinaSchool of Environment Science and Spatial Informatics, China University of Mining and Technology (CUMT), Xuzhou 221116, ChinaNational Satellite Meteorological Centre, Chinese Meteorological Administration (NSMC/CMA), Beijing 100081, ChinaBeijing Key Laboratory of Space Environment Exploration, National Space Science Center, Chinese Academy of Sciences (NSSC/CAS), Beijing 100081, ChinaBeijing Key Laboratory of Space Environment Exploration, National Space Science Center, Chinese Academy of Sciences (NSSC/CAS), Beijing 100081, ChinaNational Meteorological Centre, Chinese Meteorological Administration (NMC/CMA), Beijing 100081, ChinaAerospace Information Research Institute, Chinese Academy of Sciences (AIRS/CAS), No.9 Dengzhuang South Road, Haidian District, Beijing 100094, ChinaFengyun-3C (FY-3C) is the first Chinese satellite that is capable of using the Radio Occultation (RO) technique to retrieve atmospheric profiles. This research evaluates the quality of FY-3C RO profiles including refractivity, temperature, and specific humidity by comparing with corresponding information from the European Centre for Medium-Range Weather Forecasts (ECMWF) Interim Reanalysis (ERA-Interim) data over the period of 2015–2018. The evaluation is carried out by calculating and analyzing mean systematic differences between FY-3C and ERA-Interim profiles and corresponding standard deviations over a selected spatial and temporal domain. Results show that the FY-3C RO profiles are overall with good agreements with the ERA-Interim data. Global mean refractivity systematic differences are within ±0.2% from 5 to 30 km altitude range with relative standard deviations of less than 2%. Global temperature mean systematic differences vary within ±0.2 K from a 10- to 20-km altitude range with standard deviations of less than 2 K. Global mean specific humidity differences are found to be within ±0.2 g/kg from 2 to 20 km with standard deviations of less than 1 g/kg. FY-3C profiles show visible latitudinal and altitudinal variations, while the seasonal variations are minor. Sampling errors of refractivity and temperature are also found to be larger at higher latitudinal regions due to RO events being less sampled in the polar region.https://www.mdpi.com/2072-4292/12/13/2116fengyun-3CGNSSradio occultationevaluation
collection DOAJ
language English
format Article
sources DOAJ
author Jinde Wei
Ying Li
Kefei Zhang
Mi Liao
Weihua Bai
Congliang Liu
Yan Liu
Xiaoming Wang
spellingShingle Jinde Wei
Ying Li
Kefei Zhang
Mi Liao
Weihua Bai
Congliang Liu
Yan Liu
Xiaoming Wang
An Evaluation of Fengyun-3C Radio Occultation Atmospheric Profiles Over 2015–2018
Remote Sensing
fengyun-3C
GNSS
radio occultation
evaluation
author_facet Jinde Wei
Ying Li
Kefei Zhang
Mi Liao
Weihua Bai
Congliang Liu
Yan Liu
Xiaoming Wang
author_sort Jinde Wei
title An Evaluation of Fengyun-3C Radio Occultation Atmospheric Profiles Over 2015–2018
title_short An Evaluation of Fengyun-3C Radio Occultation Atmospheric Profiles Over 2015–2018
title_full An Evaluation of Fengyun-3C Radio Occultation Atmospheric Profiles Over 2015–2018
title_fullStr An Evaluation of Fengyun-3C Radio Occultation Atmospheric Profiles Over 2015–2018
title_full_unstemmed An Evaluation of Fengyun-3C Radio Occultation Atmospheric Profiles Over 2015–2018
title_sort evaluation of fengyun-3c radio occultation atmospheric profiles over 2015–2018
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2020-07-01
description Fengyun-3C (FY-3C) is the first Chinese satellite that is capable of using the Radio Occultation (RO) technique to retrieve atmospheric profiles. This research evaluates the quality of FY-3C RO profiles including refractivity, temperature, and specific humidity by comparing with corresponding information from the European Centre for Medium-Range Weather Forecasts (ECMWF) Interim Reanalysis (ERA-Interim) data over the period of 2015–2018. The evaluation is carried out by calculating and analyzing mean systematic differences between FY-3C and ERA-Interim profiles and corresponding standard deviations over a selected spatial and temporal domain. Results show that the FY-3C RO profiles are overall with good agreements with the ERA-Interim data. Global mean refractivity systematic differences are within ±0.2% from 5 to 30 km altitude range with relative standard deviations of less than 2%. Global temperature mean systematic differences vary within ±0.2 K from a 10- to 20-km altitude range with standard deviations of less than 2 K. Global mean specific humidity differences are found to be within ±0.2 g/kg from 2 to 20 km with standard deviations of less than 1 g/kg. FY-3C profiles show visible latitudinal and altitudinal variations, while the seasonal variations are minor. Sampling errors of refractivity and temperature are also found to be larger at higher latitudinal regions due to RO events being less sampled in the polar region.
topic fengyun-3C
GNSS
radio occultation
evaluation
url https://www.mdpi.com/2072-4292/12/13/2116
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