Comparative Analysis of the Effect of the Loading Series from GFZ and EOST on Long-Term GPS Height Time Series

Comparative Analysis of the Effect of the Loading Series from GFZ and EOST on Long-Term GPS Height Time Series

In order to investigate the effect of different loading models on the nonlinear variations in Global Positioning System (GPS) height time series, the characteristics of annual signals (amplitude and phase) of GPS time series, loading series from Deutsche GeoForschungsZentrum, Germany (GFZ) and Schoo...

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Main Authors: Shuguang Wu, Guigen Nie, Xiaolin Meng, Jingnan Liu, Yuefan He, Changhu Xue, Haiyang Li
Format: Article
Language:English
Published: MDPI AG 2020-08-01
Series:Remote Sensing
Subjects:
GPS height time series
surface mass loading
RMS reduction rate
annual amplitude and phase
annual phase difference
Online Access:https://www.mdpi.com/2072-4292/12/17/2822
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spelling doaj-36118388bd4c4896911965114cabb7592020-11-25T03:44:00ZengMDPI AGRemote Sensing2072-42922020-08-01122822282210.3390/rs12172822Comparative Analysis of the Effect of the Loading Series from GFZ and EOST on Long-Term GPS Height Time SeriesShuguang Wu0Guigen Nie1Xiaolin Meng2Jingnan Liu3Yuefan He4Changhu Xue5Haiyang Li6GNSS Research Center, Wuhan University, Wuhan 430079, ChinaGNSS Research Center, Wuhan University, Wuhan 430079, ChinaNottingham Geospatial Institute, The University of Nottingham, Nottingham NG7 2TU, UKGNSS Research Center, Wuhan University, Wuhan 430079, ChinaGNSS Research Center, Wuhan University, Wuhan 430079, ChinaDepartment of Earth and Space Sciences, Southern University of Science and Technology, Shenzhen 518055, ChinaGNSS Research Center, Wuhan University, Wuhan 430079, ChinaIn order to investigate the effect of different loading models on the nonlinear variations in Global Positioning System (GPS) height time series, the characteristics of annual signals (amplitude and phase) of GPS time series, loading series from Deutsche GeoForschungsZentrum, Germany (GFZ) and School and Observatory of Earth Sciences, France (EOST) at 633 global GPS stations are processed and analyzed. The change characteristics of the root mean square (RMS) reduction rate, annual amplitude and phase of GPS time series after environmental loading corrections (ELCs) are then detected. Results show that ELCs have a positive effect on the reduction in the nonlinear deformation contained in most GPS stations around the world. RMS reduction rates are positive at 82.6% stations after GFZ correction and 87.4% after EOST correction, and the average reduction rates of all stations are 10.6% and 15.4%, respectively. As for the environmental loading series from GFZ and EOST, their average annual amplitudes are 2.7 and 3.1 mm, which explains ~40% annual amplitude of GPS height time series (7.2 mm). Further analysis of some specific stations indicates that the annual phase difference between GPS height time series and the environmental loading series is an important reason that affects the reduction rates of the RMS and annual amplitude. The linear relationship between the annual phase difference and the annual amplitude reduction rate is significant. The linear fitting results show that when there is no annual phase difference between GPS and loading series, the reduction rates of the RMS and annual amplitude will increase to the maximum of 15.6% and 41.6% for GFZ, and 22.0% and 46.6% for EOST.https://www.mdpi.com/2072-4292/12/17/2822GPS height time seriessurface mass loadingRMS reduction rateannual amplitude and phaseannual phase difference
collection DOAJ
language English
format Article
sources DOAJ
author Shuguang Wu
Guigen Nie
Xiaolin Meng
Jingnan Liu
Yuefan He
Changhu Xue
Haiyang Li
spellingShingle Shuguang Wu
Guigen Nie
Xiaolin Meng
Jingnan Liu
Yuefan He
Changhu Xue
Haiyang Li
Comparative Analysis of the Effect of the Loading Series from GFZ and EOST on Long-Term GPS Height Time Series
Remote Sensing
GPS height time series
surface mass loading
RMS reduction rate
annual amplitude and phase
annual phase difference
author_facet Shuguang Wu
Guigen Nie
Xiaolin Meng
Jingnan Liu
Yuefan He
Changhu Xue
Haiyang Li
author_sort Shuguang Wu
title Comparative Analysis of the Effect of the Loading Series from GFZ and EOST on Long-Term GPS Height Time Series
title_short Comparative Analysis of the Effect of the Loading Series from GFZ and EOST on Long-Term GPS Height Time Series
title_full Comparative Analysis of the Effect of the Loading Series from GFZ and EOST on Long-Term GPS Height Time Series
title_fullStr Comparative Analysis of the Effect of the Loading Series from GFZ and EOST on Long-Term GPS Height Time Series
title_full_unstemmed Comparative Analysis of the Effect of the Loading Series from GFZ and EOST on Long-Term GPS Height Time Series
title_sort comparative analysis of the effect of the loading series from gfz and eost on long-term gps height time series
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2020-08-01
description In order to investigate the effect of different loading models on the nonlinear variations in Global Positioning System (GPS) height time series, the characteristics of annual signals (amplitude and phase) of GPS time series, loading series from Deutsche GeoForschungsZentrum, Germany (GFZ) and School and Observatory of Earth Sciences, France (EOST) at 633 global GPS stations are processed and analyzed. The change characteristics of the root mean square (RMS) reduction rate, annual amplitude and phase of GPS time series after environmental loading corrections (ELCs) are then detected. Results show that ELCs have a positive effect on the reduction in the nonlinear deformation contained in most GPS stations around the world. RMS reduction rates are positive at 82.6% stations after GFZ correction and 87.4% after EOST correction, and the average reduction rates of all stations are 10.6% and 15.4%, respectively. As for the environmental loading series from GFZ and EOST, their average annual amplitudes are 2.7 and 3.1 mm, which explains ~40% annual amplitude of GPS height time series (7.2 mm). Further analysis of some specific stations indicates that the annual phase difference between GPS height time series and the environmental loading series is an important reason that affects the reduction rates of the RMS and annual amplitude. The linear relationship between the annual phase difference and the annual amplitude reduction rate is significant. The linear fitting results show that when there is no annual phase difference between GPS and loading series, the reduction rates of the RMS and annual amplitude will increase to the maximum of 15.6% and 41.6% for GFZ, and 22.0% and 46.6% for EOST.
topic GPS height time series
surface mass loading
RMS reduction rate
annual amplitude and phase
annual phase difference
url https://www.mdpi.com/2072-4292/12/17/2822
work_keys_str_mv AT shuguangwu comparativeanalysisoftheeffectoftheloadingseriesfromgfzandeostonlongtermgpsheighttimeseries
AT guigennie comparativeanalysisoftheeffectoftheloadingseriesfromgfzandeostonlongtermgpsheighttimeseries
AT xiaolinmeng comparativeanalysisoftheeffectoftheloadingseriesfromgfzandeostonlongtermgpsheighttimeseries
AT jingnanliu comparativeanalysisoftheeffectoftheloadingseriesfromgfzandeostonlongtermgpsheighttimeseries
AT yuefanhe comparativeanalysisoftheeffectoftheloadingseriesfromgfzandeostonlongtermgpsheighttimeseries
AT changhuxue comparativeanalysisoftheeffectoftheloadingseriesfromgfzandeostonlongtermgpsheighttimeseries
AT haiyangli comparativeanalysisoftheeffectoftheloadingseriesfromgfzandeostonlongtermgpsheighttimeseries
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