Details

Title

Estimation of height changes of GNSS stations from the solutions of short vectors and PSI measurements

Journal title

Geodesy and Cartography

Yearbook

2017

Volume

vol. 66

Numer

No 1

Publication authors

Keywords

height changes, GNSS, Persistent Scatterer Interferometry

Divisions of PAS

Nauki Techniczne

Abstract

Time series of weekly and daily solutions for coordinates of permanent GNSS stations may indicate local deformations in Earth’s crust or local seasonal changes in the atmosphere and hydrosphere. The errors of the determined changes are relatively large, frequently at the level of the signal. Satellite radar interferometry and especially Persistent Scatterer Interferometry (PSI) is a method of a very high accuracy. Its weakness is a relative nature of measurements as well as accumulation of errors which may occur in the case of PSI processing of large areas. It is thus beneficial to confront the results of PSI measurements with those from other techniques, such as GNSS and precise levelling. PSI and GNSS results were jointly processed recreating the history of surface deformation of the area of Warsaw metropolitan with the use of radar images from Envisat and Cosmo- SkyMed satellites. GNSS data from Borowa Gora and Jozefoslaw observatories as well as from WAT1 and CBKA permanent GNSS stations were used to validate the obtained results. Observations from 2000–2015 were processed with the Bernese v.5.0 software. Relative height changes between the GNSS stations were determined from GNSS data and relative height changes between the persistent scatterers located on the objects with GNSS stations were determined from the interferometric results. The consistency of results of the two methods was 3 to 4 times better than the theoretical accuracy of each. The joint use of both methods allows to extract a very small height change below the level of measurement error.

Publisher

Commitee on Geodesy PAS

Date

2017.06.30

Type

Artykuły / Articles

Identifier

ISSN 2080-7636

DOI

10.1515/geocart-2017-0008

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