UID:
kobvindex_GFZ1666208612
Format:
145 Seiten
,
Illustrationen, Diagramme, Karten
ISSN:
0174-1454
Series Statement:
Wissenschaftliche Arbeiten der Fachrichtung Vermessungswesen der Universität Hannover Nr. 348
Note:
Auch veröffentlicht in: Deutsche Geodätische Kommission bei der Bayerischen Akademie der Wissenschaften, Reihe C, Dissertationen, Heft Nr. 829, München 2019, ISBN 978-3-7696-5240-6
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Dissertation, Gottfried Wilhelm Leibniz Universität Hannover, 2018
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Introduction
1.1 Synthetic Aperture Radar from Spaceborne Remote Sensing
1.2 Satellite-Based Monitoring of the Terrestrial Water Cycle
1.3 Remote Sensing of Water Storage in Central Asia
1.4 GFZ Activities in Central Asia and Study Areas in Kyrgyzstan
1.5 Research Objectives
1.6 Outline and Structure of the Thesis
2 Fundamentals of Synthetic Aperture Radar Remote Sensing
2.1 SAR Satellite Data
2.2 SAR Satellite Missions
2.3 Interferometric SAR
2.4 DInSAR Time Series with PSI
2.5 DInSAR Time Series with SBAS
2.6 Feature Tracking
3 State of the Art
3.1 Inter- and Intra-Annual Glacier Surface Velocities from SAR Data
3.2 Inter- and Intra-Annual Glacier Elevation Changes from SAR Data
3.3 Inter- and Intra-Annual Loading-Induced Crustal Deformations at Water Reservoirs
from SAR Data
4 Quantification of Inylchek Glacier Surface Kinematics
4.1 Abstract
4.2 Introduction
4.3 Inylchek Glacier
4.4 Data and Methodology
4.4.1 TerraSAR-X Data Set
4.4.2 Feature Tracking
4.4.3 Decomposition to 3D Velocities
4.5 Results
4.6 Discussion
4.6.1 Error Estimation
4.6.2 Inter-Annual Kinematics of the Upper Southern Inylchek Glacier Branch ....
4.6.3 Lake Level Extent and GLOF
4.7 Conclusions
4.8 Acknowledgements
4.9 Author Contribution
5 Quantification of Inylchek Glacier Elevation Changes
5.1 Abstract
5.2 Introduction
5.3 Data
5.3.1 TanDEM X Data
5.3.2 External DEMs
5.3.3 Glacier Outlines of Inylchek
5.4 Methodology
5.4.1 Interferometric Processing of TanDEM-X Data
5.4.2 Alignment of the SRTM and TDX DEMs
5.4.3 Radar Penetration Correction
5.4.4 DEM Elevation Difference Calculation
5.4.5 Accuracy Assessment
5.5 Results and Discussion
5.5.1 Uncertainty of Measurements
5.5.2 DEM Alignment Quality
5.5.3 Inylchek Elevation Changes
5.6 Conclusions
5.7 Acknowledgements
5.8 Author Contribution
6 Quantification of Toktogul Water-Level-Induced Ground Deformations
6.1 Abstract
6.2 Introduction
6.3 Materials and Methods
6.3.1 Lake Altimetry
6.3.2 DInSAR processing of Envisat ASAR and Sentinel-1 Data
6.3.3 Atmospheric Correction
6.3.4 Deformation Decomposition of SentineH Data
6.3.5 Modelling of Elastic Surface Deformations
6.4 Results
6.4.1 Atmospheric Corrections
6.4.2 Ground Deformation
6.5 Discussion
6.5.1 Atmospheric Corrections
6.5.2 Ground Deformation
6.6 Conclusions
6.7 Acknowledgments
6.8 Author Contribution
7 Subsequent Work
7.1 Scope of the Chapter
7.2 GNSS-derived Inylchek Glacier Surface Kinematics
7.2.1 Abstract
7.2.2 Author Contribution
7.3 Monitoring of Lake Merzbacher's GLOF Event
7.3.1 Abstract
7.3.2 Author Contribution
7.4 Ongoing Work at GFZ Based on the Results of this Thesis
8 Summary and Outlook
8.1 Summary of Main Results
8.1.1 Methodological Aspects
8.1.2 Monitoring of Short-Time Changes
8.2 Outlook
Bibliography
In:
Wissenschaftliche Arbeiten der Fachrichtung Vermessungswesen der Universität Hannover
Additional Edition:
Erscheint auch als
Additional Edition:
eng
Language:
English
Keywords:
Hochschulschrift
Author information:
Müller, Jürgen 1962-
Author information:
Neelmeijer, Julia 1986-