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...
Forward modeling of geophysical electromagnetic fields over large three-dimensional volumes is a hea...
This paper describes a new 3D parallel GILD electromagnetic (EM) modeling and nonlinear inversion al...
Efficiency of a 3-D electromagnetic numerical modelling scheme is critical for its future use within...
The growing significance, technical development and employment of electromagnetic (EM) methods in ex...
This report has demonstrated techniques that can be used to construct solutions to the 3-D electroma...
This paper presents an edge-based parallel code for the data computation that arises when applying o...
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 present a nodal finite-element method that can be used to compute in parallel highly accurate sol...
This paper presents a distributed magnetotelluric inversion scheme based on adaptive finite-element ...
We have developed a generalized and stable surface integral formula for 3-D uniform inducing field a...
High performance computing is absolutely necessary for large-scale geophysical simulations. In order...
Modern numerical algorithms for computational electromagnetics lead to many large sparse systems of ...
An iterative solution to the non-linear 3-D electromagnetic inverse problem is obtained by successiv...
International audienceSUMMARY The controlled source electro-magnetic (CSEM) method is increasingly u...
Forward modeling of geophysical electromagnetic fields over large three-dimensional volumes is a hea...
This paper describes a new 3D parallel GILD electromagnetic (EM) modeling and nonlinear inversion al...
Efficiency of a 3-D electromagnetic numerical modelling scheme is critical for its future use within...
The growing significance, technical development and employment of electromagnetic (EM) methods in ex...
This report has demonstrated techniques that can be used to construct solutions to the 3-D electroma...
This paper presents an edge-based parallel code for the data computation that arises when applying o...
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 present a nodal finite-element method that can be used to compute in parallel highly accurate sol...
This paper presents a distributed magnetotelluric inversion scheme based on adaptive finite-element ...
We have developed a generalized and stable surface integral formula for 3-D uniform inducing field a...
High performance computing is absolutely necessary for large-scale geophysical simulations. In order...
Modern numerical algorithms for computational electromagnetics lead to many large sparse systems of ...
An iterative solution to the non-linear 3-D electromagnetic inverse problem is obtained by successiv...
International audienceSUMMARY The controlled source electro-magnetic (CSEM) method is increasingly u...
Forward modeling of geophysical electromagnetic fields over large three-dimensional volumes is a hea...
This paper describes a new 3D parallel GILD electromagnetic (EM) modeling and nonlinear inversion al...
Efficiency of a 3-D electromagnetic numerical modelling scheme is critical for its future use within...