We consider the inverse problem of determining shape and location of sound-soft defects inside a known planar inhomogeneous and anisotropic medium through acoustic imaging at low frequency. In order to determine the defects, we perform acoustic boundary measurements, with prescribed boundary conditions of different types. We prove that at most two, suitably chosen, measurements allow us to uniquely determine multiple defects under minimal regularity assumptions on the defects and the medium containing them. Finally, we treat applications of these results to the case of inverse scattering
When a wave impinges upon an irregularity in an otherwise homogeneous medium, the wave is deformed i...
Consider time-harmonic acoustic scattering from a bounded penetrable obstacle D ⊂ RN embedded in a h...
Imaging methods like Synthetic Aperture Focusing Technique (SAFT) are based on the principle of prop...
We consider the inverse problem of determining shape and location of sound-soft defects inside a kno...
AbstractWe show that an obstacle inside a known inhomogeneous medium can be determined from measurem...
This thesis is about inverse problems in acoustic scattering for inhomogeneous media with far-field ...
Cakoni, FioralbaIn the thesis we consider the inverse problem of detecting the shape, size, position...
International audienceWe consider the problem of detecting the presence of sound-hard cracks in a no...
Cakoni, FioralbaMonk, Peter B.In this thesis we study three different problems associated to the det...
The topic of wave propagation in layered media has for a long time been of major interest in underwa...
optimization approach for the localization of defects in an inhomogeneous medium from acoustic far-f...
AbstractIn this paper, we prove uniqueness in determining a sound-soft ball in inverse acoustic scat...
Improving the reliability and testing performance of permanent joints оf different materials made by...
The three-dimensional inverse acoustic medium problem of N homogeneous objects with known geometry a...
Topological imaging is an emerging ultrasonic imaging method based on two computations performed for...
When a wave impinges upon an irregularity in an otherwise homogeneous medium, the wave is deformed i...
Consider time-harmonic acoustic scattering from a bounded penetrable obstacle D ⊂ RN embedded in a h...
Imaging methods like Synthetic Aperture Focusing Technique (SAFT) are based on the principle of prop...
We consider the inverse problem of determining shape and location of sound-soft defects inside a kno...
AbstractWe show that an obstacle inside a known inhomogeneous medium can be determined from measurem...
This thesis is about inverse problems in acoustic scattering for inhomogeneous media with far-field ...
Cakoni, FioralbaIn the thesis we consider the inverse problem of detecting the shape, size, position...
International audienceWe consider the problem of detecting the presence of sound-hard cracks in a no...
Cakoni, FioralbaMonk, Peter B.In this thesis we study three different problems associated to the det...
The topic of wave propagation in layered media has for a long time been of major interest in underwa...
optimization approach for the localization of defects in an inhomogeneous medium from acoustic far-f...
AbstractIn this paper, we prove uniqueness in determining a sound-soft ball in inverse acoustic scat...
Improving the reliability and testing performance of permanent joints оf different materials made by...
The three-dimensional inverse acoustic medium problem of N homogeneous objects with known geometry a...
Topological imaging is an emerging ultrasonic imaging method based on two computations performed for...
When a wave impinges upon an irregularity in an otherwise homogeneous medium, the wave is deformed i...
Consider time-harmonic acoustic scattering from a bounded penetrable obstacle D ⊂ RN embedded in a h...
Imaging methods like Synthetic Aperture Focusing Technique (SAFT) are based on the principle of prop...