The growing significance, technical development and employment of electromagnetic (EM) methods in exploration geophysics have led to the increasing need for reliable and fast techniques of interpretation of 3-D EM data sets acquired in complex geological environments. The first and most important step to creating an inversion method is the development of a solver for the forward problem. In order to create an efficient, reliable and practical 3-D EM inversion, it is necessary to have a 3-D EM modelling code that is highly accurate, robust and very fast. This thesis focuses precisely on this crucial and very demanding step to building a 3-D EM interpretation method. The thesis presents as its main contribution a highly accurate, robust, ver...
Efficiency of a 3-D electromagnetic numerical modelling scheme is critical for its future use within...
This report has demonstrated techniques that can be used to construct solutions to the 3-D electroma...
Modern numerical algorithms for computational electromagnetics lead to many large sparse systems of ...
The growing significance, technical development and employment of electromagnetic (EM) methods in ex...
We present a massively parallel finite-element method for 3D electromagnetic forward modelling using...
We present an elaborate preconditioning scheme for Krylov subspace methods which has been developed ...
We have developed a generalized and stable surface integral formula for 3-D uniform inducing field a...
This paper presents a distributed magnetotelluric inversion scheme based on adaptive finite-element ...
Forward modeling of geophysical electromagnetic fields over large three-dimensional volumes is a hea...
We present a nodal finite-element method that can be used to compute in parallel highly accurate sol...
Finite-element solutions to the three-dimensional geophysical electromagnetic forward modeling prob...
We present a routine for 3D magnetotelluric (MT) modeling based upon high-order edge finite element ...
We present the capabilities and results of the Parallel Edge-based Tool for Geophysical Electromagne...
Modern geoelectrical data acquisition systems allow large amounts of data to be collected in a short...
This paper presents an edge-based parallel code for the data computation that arises when applying o...
Efficiency of a 3-D electromagnetic numerical modelling scheme is critical for its future use within...
This report has demonstrated techniques that can be used to construct solutions to the 3-D electroma...
Modern numerical algorithms for computational electromagnetics lead to many large sparse systems of ...
The growing significance, technical development and employment of electromagnetic (EM) methods in ex...
We present a massively parallel finite-element method for 3D electromagnetic forward modelling using...
We present an elaborate preconditioning scheme for Krylov subspace methods which has been developed ...
We have developed a generalized and stable surface integral formula for 3-D uniform inducing field a...
This paper presents a distributed magnetotelluric inversion scheme based on adaptive finite-element ...
Forward modeling of geophysical electromagnetic fields over large three-dimensional volumes is a hea...
We present a nodal finite-element method that can be used to compute in parallel highly accurate sol...
Finite-element solutions to the three-dimensional geophysical electromagnetic forward modeling prob...
We present a routine for 3D magnetotelluric (MT) modeling based upon high-order edge finite element ...
We present the capabilities and results of the Parallel Edge-based Tool for Geophysical Electromagne...
Modern geoelectrical data acquisition systems allow large amounts of data to be collected in a short...
This paper presents an edge-based parallel code for the data computation that arises when applying o...
Efficiency of a 3-D electromagnetic numerical modelling scheme is critical for its future use within...
This report has demonstrated techniques that can be used to construct solutions to the 3-D electroma...
Modern numerical algorithms for computational electromagnetics lead to many large sparse systems of ...