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Analytical and numerical elastic dislocation models of volcano deformation processes
The advances in modern geodetic techniques such as the global navigation satellite system (GNSS) and synthetic aperture radar (SAR) provide surface deformation measurements with an unprecedented accuracy and temporal and spatial resolutions even at most remote volcanoes on Earth. Modelling of the high-quality geodetic data is crucial for understanding the underlying physics of volcano deformation processes. Among various approaches, mathematical models are the most effective for establishing a quantitative link between the surface displacements and the shape and strength of deformation sources. Advancing the geodetic data analyses and hence, the knowledge on the Earth’s interior processes, demands sophisticated and efficient deformation modelling approaches. Yet the majority of these models rely on simplistic assumptions for deformation source geometries and ignore complexities such as the Earth’s surface topography and interactions between multiple sources. ...
Analytical and numerical elastic dislocation models of volcano deformation processes
The advances in modern geodetic techniques such as the global navigation satellite system (GNSS) and synthetic aperture radar (SAR) provide surface deformation measurements with an unprecedented accuracy and temporal and spatial resolutions even at most remote volcanoes on Earth. Modelling of the high-quality geodetic data is crucial for understanding the underlying physics of volcano deformation processes. Among various approaches, mathematical models are the most effective for establishing a quantitative link between the surface displacements and the shape and strength of deformation sources. Advancing the geodetic data analyses and hence, the knowledge on the Earth’s interior processes, demands sophisticated and efficient deformation modelling approaches. Yet the majority of these models rely on simplistic assumptions for deformation source geometries and ignore complexities such as the Earth’s surface topography and interactions between multiple sources. ...
Analytical and numerical elastic dislocation models of volcano deformation processes
Analytische und numerische Dislokationsmodelle von Verformungsprozessen an Vulkanen
Nikkhoo, Mehdi (author) / Beauducel, François (tutor) / Ohrnberger, Matthias (tutor) / Walter, Thomas R. (tutor) / Universität Potsdam (degree granting institution)
2019
1 Online-Ressource (x, 175 Seiten, 32896 KB)
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Kumulative Dissertation
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Electronic Resource
English
Analytical and numerical elastic dislocation models of volcano deformation processes
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