AbstractThis paper develops a fast, simple algorithm for locating one or more perfectly insulating, pair-wise disjoint, linear cracks in a homogeneous two-dimensional electrical conductor, using flux-potential boundary measurements. We also explore the issue of what types boundary inputs yield the most stable images
An algorithm is introduced for using electrical surface measurements to detect and monitor cracks in...
IC-MSQUARE 2012: International Conference on Mathematical Modelling in Physical Sciences, T. Kosmas,...
We examine the problem of Identifying both the location and constitutive law governing electrical cu...
This paper develops a fast algorithm for locating one or more perfectly insulating, pair-wise disjoi...
This paper develops an algorithm for recovering a collection of linear cracks in a homogeneous elect...
An algorithm for recovering a collection of linear cracks in a homogeneous electrical conductor from...
An algorithm for recovering a collection of linear cracks in a homogeneous electrical conductor from...
We demonstrate the viability of using Electrical Impedance Tomography (EIT) for the reconstruction o...
In this work we assess the effectiveness of Electrical Impedance Tomography for determining the pres...
International audienceWe use the linear sampling method (LSM) to identify a crack with impedance bou...
We consider the inverse boundary value problem of crack detection in a two-dimensional electrical co...
In this work we assess the effectiveness of Electrical Impedance Tomography for determining the pres...
This paper develops an algorithm for finding one or more non-insulated, pair-wise disjoint, linear c...
The inverse problem of the determination of boundary defects in a planar conductor by a finite numbe...
The two-dimensional problem of a long crack in a non-magnetic, half-space conductor lying perpendicu...
An algorithm is introduced for using electrical surface measurements to detect and monitor cracks in...
IC-MSQUARE 2012: International Conference on Mathematical Modelling in Physical Sciences, T. Kosmas,...
We examine the problem of Identifying both the location and constitutive law governing electrical cu...
This paper develops a fast algorithm for locating one or more perfectly insulating, pair-wise disjoi...
This paper develops an algorithm for recovering a collection of linear cracks in a homogeneous elect...
An algorithm for recovering a collection of linear cracks in a homogeneous electrical conductor from...
An algorithm for recovering a collection of linear cracks in a homogeneous electrical conductor from...
We demonstrate the viability of using Electrical Impedance Tomography (EIT) for the reconstruction o...
In this work we assess the effectiveness of Electrical Impedance Tomography for determining the pres...
International audienceWe use the linear sampling method (LSM) to identify a crack with impedance bou...
We consider the inverse boundary value problem of crack detection in a two-dimensional electrical co...
In this work we assess the effectiveness of Electrical Impedance Tomography for determining the pres...
This paper develops an algorithm for finding one or more non-insulated, pair-wise disjoint, linear c...
The inverse problem of the determination of boundary defects in a planar conductor by a finite numbe...
The two-dimensional problem of a long crack in a non-magnetic, half-space conductor lying perpendicu...
An algorithm is introduced for using electrical surface measurements to detect and monitor cracks in...
IC-MSQUARE 2012: International Conference on Mathematical Modelling in Physical Sciences, T. Kosmas,...
We examine the problem of Identifying both the location and constitutive law governing electrical cu...
DOI
Add to ORKG