We present a data driven method of full waveform inversion in one dimension. This means that the inversion is carried out as a sequence of processing steps. The first step is known as Marchenko redatuming. In this step we retrieve focusing functions from the measured data. In the second step we isolate the last event in the focusing function to obtain the local reflection coefficient of a particular reflecting boundary. This is done for the dissipative and equivalent effectual model. An effectual medium amplifies a propagating wave in the same way as a dissipative medium attenuates it. From these two models the reflection coefficient of the corresponding lossless medium can be computed. This is then inverted for the electric permittivity. O...
International audienceIn the presence of a thin-bed, i.e., when a layer is thin compared to the wave...
In the present work we have presented a reliable and efficient algorithm for the data inversion, whi...
International audienceFull waveform inversion (FWI) of seismic or Ground Penetrating Radar data prov...
We present a data driven method of full waveform inversion in one dimension. This means that the inv...
Radar data collected on two sides of a horizontally dissipative layered medium are required to inver...
Two wavefields can be retrieved from the measured reflection response at the surface. One is the Gre...
In one dimension, full waveform inversion is shown to be a linear problem under several conditions. ...
We derive a fast acoustic inversion method for a piecewise homogeneous horizontally layered medium. ...
We present a one-dimensional lossless scheme to compute an image of a dissipative medium from two si...
This paper presents a time-domain technique to compute the electromagnetic fields and to reconstruct...
Pipes and water leaks can potentially be detected using ground-penetrating radar (GPR). Recently, a ...
GPR is an electromagnetic technique that is used for examining shallow subsurface of the ground medi...
We present a new algorithm for the inversion of full-waveform ground-penetrating radar (GPR) data. I...
International audienceFull waveform inversion of Ground Penetrating Radar data is a promising and ch...
International audienceIn the presence of a thin-bed, i.e., when a layer is thin compared to the wave...
In the present work we have presented a reliable and efficient algorithm for the data inversion, whi...
International audienceFull waveform inversion (FWI) of seismic or Ground Penetrating Radar data prov...
We present a data driven method of full waveform inversion in one dimension. This means that the inv...
Radar data collected on two sides of a horizontally dissipative layered medium are required to inver...
Two wavefields can be retrieved from the measured reflection response at the surface. One is the Gre...
In one dimension, full waveform inversion is shown to be a linear problem under several conditions. ...
We derive a fast acoustic inversion method for a piecewise homogeneous horizontally layered medium. ...
We present a one-dimensional lossless scheme to compute an image of a dissipative medium from two si...
This paper presents a time-domain technique to compute the electromagnetic fields and to reconstruct...
Pipes and water leaks can potentially be detected using ground-penetrating radar (GPR). Recently, a ...
GPR is an electromagnetic technique that is used for examining shallow subsurface of the ground medi...
We present a new algorithm for the inversion of full-waveform ground-penetrating radar (GPR) data. I...
International audienceFull waveform inversion of Ground Penetrating Radar data is a promising and ch...
International audienceIn the presence of a thin-bed, i.e., when a layer is thin compared to the wave...
In the present work we have presented a reliable and efficient algorithm for the data inversion, whi...
International audienceFull waveform inversion (FWI) of seismic or Ground Penetrating Radar data prov...