Joint inversion of geophysical data using multinary transformation and gramian constraints
dissertation It is well known that the inversion of geophysical data is a nonunique problem. One of the approaches to reduce the nonuniqueness is based on the joint inversion of multiple geophysical data, if the corresponding physical properties are mutually correlated. This dissertation develops a...
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University of Utah
2018
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ftunivutah:oai:collections.lib.utah.edu:ir_etd/1745942 2023-10-25T01:37:04+02:00 Joint inversion of geophysical data using multinary transformation and gramian constraints Doctor of Philosophy Lin, Wei College of Mines and Earth Sciences Geology & Geophysics 2018 application/pdf https://collections.lib.utah.edu/ark:/87278/s623pmxz eng eng University of Utah https://collections.lib.utah.edu/ark:/87278/s623pmxz (c) Wei Lin Text 2018 ftunivutah 2023-09-28T17:52:50Z dissertation It is well known that the inversion of geophysical data is a nonunique problem. One of the approaches to reduce the nonuniqueness is based on the joint inversion of multiple geophysical data, if the corresponding physical properties are mutually correlated. This dissertation develops a method of joint inversion of seismic and gravity gradiometry data based on the Gramian constraints. The existence of an empirical linear relationship between the logarithms of seismic velocity and density was taken into account for the construction of a Gramian stabilizer, as well as the structural Gramian constraint with the gradients of velocity and density. The developed algorithm was based on modeling the seismic field using the integral equation (IE) method and different IE-based approximations. The joint inversion results of 3D synthetic model studies indicated that the resolution of both predicted density and velocity models was significantly improved. By nature, the recovered distributions of physical properties generated from the traditional inversions of potential field data are usually diffused. This dissertation develops a multinary inversion algorithm based on multinary transformation of the model parameters. An adaptive multinary inversion approach was introduced to automatically adjust the values of corresponding standard deviation during the inversion process. This approach was tested on several model studies and a case study in the area of Nordkapp Basin of the Barents Sea, which demonstrated to be effective in improving the quality of iv the gravity inversion for geological targets with sharp density contrast. In order to recover sharp and consistent boundaries of anomalous bodies from different geophysical data for mineral exploration, this dissertation also proposes an innovative approach to the joint inversion of gravity and magnetic data based on multinary transformation of the model parameters and Gramian constraints. The novel approach not only makes it possible to provide the sharp contrasts ... Text Barents Sea Nordkapp Nordkapp Basin The University of Utah: J. Willard Marriott Digital Library Barents Sea |
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The University of Utah: J. Willard Marriott Digital Library |
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ftunivutah |
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English |
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dissertation It is well known that the inversion of geophysical data is a nonunique problem. One of the approaches to reduce the nonuniqueness is based on the joint inversion of multiple geophysical data, if the corresponding physical properties are mutually correlated. This dissertation develops a method of joint inversion of seismic and gravity gradiometry data based on the Gramian constraints. The existence of an empirical linear relationship between the logarithms of seismic velocity and density was taken into account for the construction of a Gramian stabilizer, as well as the structural Gramian constraint with the gradients of velocity and density. The developed algorithm was based on modeling the seismic field using the integral equation (IE) method and different IE-based approximations. The joint inversion results of 3D synthetic model studies indicated that the resolution of both predicted density and velocity models was significantly improved. By nature, the recovered distributions of physical properties generated from the traditional inversions of potential field data are usually diffused. This dissertation develops a multinary inversion algorithm based on multinary transformation of the model parameters. An adaptive multinary inversion approach was introduced to automatically adjust the values of corresponding standard deviation during the inversion process. This approach was tested on several model studies and a case study in the area of Nordkapp Basin of the Barents Sea, which demonstrated to be effective in improving the quality of iv the gravity inversion for geological targets with sharp density contrast. In order to recover sharp and consistent boundaries of anomalous bodies from different geophysical data for mineral exploration, this dissertation also proposes an innovative approach to the joint inversion of gravity and magnetic data based on multinary transformation of the model parameters and Gramian constraints. The novel approach not only makes it possible to provide the sharp contrasts ... |
| author2 |
College of Mines and Earth Sciences Geology & Geophysics |
| format |
Text |
| author |
Lin, Wei |
| spellingShingle |
Lin, Wei Joint inversion of geophysical data using multinary transformation and gramian constraints |
| author_facet |
Lin, Wei |
| author_sort |
Lin, Wei |
| title |
Joint inversion of geophysical data using multinary transformation and gramian constraints |
| title_short |
Joint inversion of geophysical data using multinary transformation and gramian constraints |
| title_full |
Joint inversion of geophysical data using multinary transformation and gramian constraints |
| title_fullStr |
Joint inversion of geophysical data using multinary transformation and gramian constraints |
| title_full_unstemmed |
Joint inversion of geophysical data using multinary transformation and gramian constraints |
| title_sort |
joint inversion of geophysical data using multinary transformation and gramian constraints |
| publisher |
University of Utah |
| publishDate |
2018 |
| url |
https://collections.lib.utah.edu/ark:/87278/s623pmxz |
| geographic |
Barents Sea |
| geographic_facet |
Barents Sea |
| genre |
Barents Sea Nordkapp Nordkapp Basin |
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Barents Sea Nordkapp Nordkapp Basin |
| op_relation |
https://collections.lib.utah.edu/ark:/87278/s623pmxz |
| op_rights |
(c) Wei Lin |
| _version_ |
1780732042811539456 |