A practical technique is presented for finding the shape of a smooth, reflecting, convex object from its scattered field. The method assumes the field on the surface of the object satisfies Dirichlet boundary conditions. A surface identifier is computed from the T-matrix of the scatterer, which in turn, is found from data recorded on a surface surrounding the object. We restrict ourselves to two dimensional objects and the scalar wave equation, but the methods will readily extend, for example, to three dimensions or electromagnetic waves.link_to_subscribed_fulltex
A method for reconstruction of an object f(x) x=(x,y,z) from a limited set of cone-beam projection d...
In this paper, an algorithm to reconstruct one-dimensional impenetrable rough surface from the knowl...
Image reconstruction in X ray tomography consists in determining an object f(x;y) from its projectio...
The theory of diffraction tomography for two-dimensional objects within the Born approximation is pr...
The scattered field from an object, when illuminated with ultrasound, is useful in the reconstructio...
In this letter, an inverse scattering problem for the reconstruction of rough surfaces having standa...
AbstractA method for reconstructing the complex index of refraction of a bounded two-dimensional inh...
This letter addresses a reconstruction algorithm of locally rough inaccessible surface profiles via ...
The problem of characterizing the structure of an object buried in an inhomogeneous halfs-pace of un...
This thesis presents an optical acquisition setup and application of tomographic reconstruction to ...
International audienceThe problem of determining the shape and location of an object embedded in a h...
This paper deals with the reconstruction of the shape of unknown perfectly conducting objects from t...
A method is provided for reconstruction of the shape of perfectly conducting objects in a homogeneou...
The reconstruction of the shape of "strongly scattering" objects from the knowledge of the scattere...
This thesis describes methods for reconstruction in non-linear tomography applications. The specific...
A method for reconstruction of an object f(x) x=(x,y,z) from a limited set of cone-beam projection d...
In this paper, an algorithm to reconstruct one-dimensional impenetrable rough surface from the knowl...
Image reconstruction in X ray tomography consists in determining an object f(x;y) from its projectio...
The theory of diffraction tomography for two-dimensional objects within the Born approximation is pr...
The scattered field from an object, when illuminated with ultrasound, is useful in the reconstructio...
In this letter, an inverse scattering problem for the reconstruction of rough surfaces having standa...
AbstractA method for reconstructing the complex index of refraction of a bounded two-dimensional inh...
This letter addresses a reconstruction algorithm of locally rough inaccessible surface profiles via ...
The problem of characterizing the structure of an object buried in an inhomogeneous halfs-pace of un...
This thesis presents an optical acquisition setup and application of tomographic reconstruction to ...
International audienceThe problem of determining the shape and location of an object embedded in a h...
This paper deals with the reconstruction of the shape of unknown perfectly conducting objects from t...
A method is provided for reconstruction of the shape of perfectly conducting objects in a homogeneou...
The reconstruction of the shape of "strongly scattering" objects from the knowledge of the scattere...
This thesis describes methods for reconstruction in non-linear tomography applications. The specific...
A method for reconstruction of an object f(x) x=(x,y,z) from a limited set of cone-beam projection d...
In this paper, an algorithm to reconstruct one-dimensional impenetrable rough surface from the knowl...
Image reconstruction in X ray tomography consists in determining an object f(x;y) from its projectio...