Comparison of precipitable water over Ghana using GPS signals and reanalysis products

Comparison of precipitable water over Ghana using GPS signals and reanalysis products

Signals from Global Navigational Satellite Systems (GNSS) when integrated with surface meteorological parameters can be used to sense atmospheric water vapour. Using gLAB software and employing precise point positioning techniques, zenith troposphere delays (ZTD) for a GPS base station at KNUST, Kum...

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Main Authors: Acheampong A. A., Fosu C., Amekudzi L. K., Kaas E.
Format: Article
Language:English
Published: Sciendo 2015-11-01
Series:Journal of Geodetic Science
Subjects:
GNSS
integrated water vapour
numerical weather prediction
precipitable water
reanalysis model
Online Access:http://www.degruyter.com/view/j/jogs.2015.5.issue-1/jogs-2015-0016/jogs-2015-0016.xml?format=INT
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spelling doaj-e3b490d5f8c8453ea130441c8ccb6bd62020-11-24T23:18:44ZengSciendoJournal of Geodetic Science2081-99432015-11-015110.1515/jogs-2015-0016jogs-2015-0016Comparison of precipitable water over Ghana using GPS signals and reanalysis productsAcheampong A. A.0Fosu C.1Amekudzi L. K.2Kaas E.3Kwame Nkrumah University of Science and Technology, Kumasi, GhanaKwame Nkrumah University of Science and Technology, Kumasi, GhanaKwame Nkrumah University of Science and Technology, Kumasi, GhanaNiels Bohr Inst, University of Copenhagen, DenmarkSignals from Global Navigational Satellite Systems (GNSS) when integrated with surface meteorological parameters can be used to sense atmospheric water vapour. Using gLAB software and employing precise point positioning techniques, zenith troposphere delays (ZTD) for a GPS base station at KNUST, Kumasi have been computed and used to retrieve Precipitable Water (PW). The PW values obtained were compared with products from ERA-Interim and NCEP reanalysis data. The correlation coefficients, r, determined from these comparisons were 0.839 and 0.729 for ERA-interim and NCEP respectively. This study has demonstrated that water vapour can be retrieved with high precision from GNSS signal. Furthermore, a location map have been produced to serve as a guide in adopting and installing GNSS base stations in Ghana to achieve a country wide coverage of GNSS based water vapour monitoring.http://www.degruyter.com/view/j/jogs.2015.5.issue-1/jogs-2015-0016/jogs-2015-0016.xml?format=INTGNSS integrated water vapour numerical weather predictionprecipitable water reanalysis model
collection DOAJ
language English
format Article
sources DOAJ
author Acheampong A. A.
Fosu C.
Amekudzi L. K.
Kaas E.
spellingShingle Acheampong A. A.
Fosu C.
Amekudzi L. K.
Kaas E.
Comparison of precipitable water over Ghana using GPS signals and reanalysis products
Journal of Geodetic Science
GNSS
integrated water vapour
numerical weather prediction
precipitable water
reanalysis model
author_facet Acheampong A. A.
Fosu C.
Amekudzi L. K.
Kaas E.
author_sort Acheampong A. A.
title Comparison of precipitable water over Ghana using GPS signals and reanalysis products
title_short Comparison of precipitable water over Ghana using GPS signals and reanalysis products
title_full Comparison of precipitable water over Ghana using GPS signals and reanalysis products
title_fullStr Comparison of precipitable water over Ghana using GPS signals and reanalysis products
title_full_unstemmed Comparison of precipitable water over Ghana using GPS signals and reanalysis products
title_sort comparison of precipitable water over ghana using gps signals and reanalysis products
publisher Sciendo
series Journal of Geodetic Science
issn 2081-9943
publishDate 2015-11-01
description Signals from Global Navigational Satellite Systems (GNSS) when integrated with surface meteorological parameters can be used to sense atmospheric water vapour. Using gLAB software and employing precise point positioning techniques, zenith troposphere delays (ZTD) for a GPS base station at KNUST, Kumasi have been computed and used to retrieve Precipitable Water (PW). The PW values obtained were compared with products from ERA-Interim and NCEP reanalysis data. The correlation coefficients, r, determined from these comparisons were 0.839 and 0.729 for ERA-interim and NCEP respectively. This study has demonstrated that water vapour can be retrieved with high precision from GNSS signal. Furthermore, a location map have been produced to serve as a guide in adopting and installing GNSS base stations in Ghana to achieve a country wide coverage of GNSS based water vapour monitoring.
topic GNSS
integrated water vapour
numerical weather prediction
precipitable water
reanalysis model
url http://www.degruyter.com/view/j/jogs.2015.5.issue-1/jogs-2015-0016/jogs-2015-0016.xml?format=INT
work_keys_str_mv AT acheampongaa comparisonofprecipitablewateroverghanausinggpssignalsandreanalysisproducts
AT fosuc comparisonofprecipitablewateroverghanausinggpssignalsandreanalysisproducts
AT amekudzilk comparisonofprecipitablewateroverghanausinggpssignalsandreanalysisproducts
AT kaase comparisonofprecipitablewateroverghanausinggpssignalsandreanalysisproducts
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