An optimization technique is described for inverting the geomagnetic secular variation data to find out the electrical conductivity. It is simpler and more straightforward than the exact technique based on the Gelfand-Levitan theory of the inverse boundary value problem for the second-order differential equation [1]
The pole-pole 3-D DC-resistivity inverse problem is solved by converting the inverse problem into an...
This thesis develops an integrated methodology for high resolution geoelectrical sur-veys including ...
Particle Swarm optimization (PSO) algorithm resolves constrained multi-parameter problems and is sui...
An optimization technique is described for inverting the geomagnetic secular variation data to find ...
The inversion problem of the geomagnetic secular variation, that is the recovery of the electrical c...
With the increased availability of new geomagnetic data, mainly from the Swarm mission satellites, i...
The nonlinear inverse problem of electromagnetic induction to recover electrical conductivity is exa...
Summary. The problem of determination of the electrical conductivity of the Earth from the geomagnet...
The nonlinear inverse problem of electromagnetic induction to recover electrical conductivity is exa...
In this paper, we present an analysis of the solution to a number of geophysical inverse problems wh...
The electrical conductivity of the upper mantle can be determined by comparing the measured response...
This thesis is concerned with numerical methods for inverse problems in applied Geophysics. Its main...
3noThis paper deals with the solution of Maxwell's equations to model the electromagnetic fields in ...
International audienceWe developed a new three-dimensional electromagnetic time domain technique to ...
Electromagnetic (EM) methods have been extensively used in geophysical investigations such as minera...
The pole-pole 3-D DC-resistivity inverse problem is solved by converting the inverse problem into an...
This thesis develops an integrated methodology for high resolution geoelectrical sur-veys including ...
Particle Swarm optimization (PSO) algorithm resolves constrained multi-parameter problems and is sui...
An optimization technique is described for inverting the geomagnetic secular variation data to find ...
The inversion problem of the geomagnetic secular variation, that is the recovery of the electrical c...
With the increased availability of new geomagnetic data, mainly from the Swarm mission satellites, i...
The nonlinear inverse problem of electromagnetic induction to recover electrical conductivity is exa...
Summary. The problem of determination of the electrical conductivity of the Earth from the geomagnet...
The nonlinear inverse problem of electromagnetic induction to recover electrical conductivity is exa...
In this paper, we present an analysis of the solution to a number of geophysical inverse problems wh...
The electrical conductivity of the upper mantle can be determined by comparing the measured response...
This thesis is concerned with numerical methods for inverse problems in applied Geophysics. Its main...
3noThis paper deals with the solution of Maxwell's equations to model the electromagnetic fields in ...
International audienceWe developed a new three-dimensional electromagnetic time domain technique to ...
Electromagnetic (EM) methods have been extensively used in geophysical investigations such as minera...
The pole-pole 3-D DC-resistivity inverse problem is solved by converting the inverse problem into an...
This thesis develops an integrated methodology for high resolution geoelectrical sur-veys including ...
Particle Swarm optimization (PSO) algorithm resolves constrained multi-parameter problems and is sui...
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