Reference frame densifications for Nordic and Baltic countries - From local analysis to common and consistent GNSS solutions

Defence is held on 27.5.2022 12:00 – 15:00 Zoom, https://aalto.zoom.us/j/68005548971 Terrestrial, Earth-fixed, reference frames are fundamental, but often unnoticeable, components for modern societies. Today, regional terrestrial reference frames are created and maintained by the measurement of cont...

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Bibliographic Details
Published in:Journal of Geodetic Science
Main Author: Lahtinen, Sonja
Other Authors: Koivula, Hannu, Prof., Finnish Geospatial Research Institute FGI, Finland, Insinööritieteiden korkeakoulu, School of Engineering, Rakennetun ympäristön laitos, Department of Built Environment, Nordman, Maaria, Prof., Aalto University, Department of Built Environment, Finland, Aalto-yliopisto, Aalto University
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: Aalto University 2022
Subjects:
Geoinformatics
Telecommunications engineering
GNSS
terrestrial reference frames
GNSS time series
GNSS velocities
ITRF
satelliittipaikannus
terrestriset vertauskehykset
GNSS-aikasarjat
GNSS-nopeudet
Fennoscandia
Online Access:https://aaltodoc.aalto.fi/handle/123456789/114101
Description
Summary:Defence is held on 27.5.2022 12:00 – 15:00 Zoom, https://aalto.zoom.us/j/68005548971 Terrestrial, Earth-fixed, reference frames are fundamental, but often unnoticeable, components for modern societies. Today, regional terrestrial reference frames are created and maintained by the measurement of continuously operating Global Navigation Satellite System (GNSS) reference stations. In Fennoscandia, glacial isostatic adjustment (GIA) causes deformation, also known as postglacial rebound, decreasing the accuracy of national static reference frames referring to the European Terrestrial Reference System 1989 (ETRS89). Considering the deformation is thus a necessity to accurately transform coordinates from the International Terrestrial Reference Frame (ITRF) to national ETRS89 realisations such as EUREF-FIN in Finland. This dissertation focused on estimating densified reference frame realisations in the global reference frames for the Nordic and Baltic countries. The work was carried out in the GNSS Analysis Centre project of the Nordic Geodetic Commission (NKG). It builds on eight local analysis centres, one in each country, processing its sub-net. The emphasis of the dissertation was on developing methods for combination of the sub-nets, analysis of the time series, and estimating a multi-year position and velocity solution, including uncertainties of the station velocities. The results showed that the sub-net solutions were consistent with the combined solution within 1–2 mm. The distribution of the GNSS processing into local sub-nets thus strengthened the daily solutions due to the redundantly processed reference stations. The station-wise position time series were analysed for offsets both manually and with the developed automatic approach with a 74 % success rate in respect to the manual interpretation. Station velocities were estimated for approximately 270 stations from daily position solutions. The lengths of time series varied between 3 and 20 years. Uncertainty levels of 0.10, 0.10, and 0.25 mm/y for the ...

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