AbstractIn this paper, we prove uniqueness in determining a sound-soft ball in inverse acoustic scattering by the modulus of the far field patterns. Since the modulus of the far field pattern is invariant under translation (Kress and Rundell, 1997 [6], Kwon and Seo, 2000 [7]), we can only reconstruct the shape of the obstacle but not the location. Assume that the ball is centered at the origin. Under the condition that the ball is small, it is uniquely determined by the modulus of a single far field datum measured at a fixed spot corresponding to a single incident plane wave
In this paper we propose a simple method for detecting (shape, size and location) a scatterer embedd...
Abstract. We describe a novel technique, which we call the no response test, to locate the support o...
We consider an inverse scattering problem arising in target iden- tification. We prove a local stabi...
AbstractIn this paper, we prove uniqueness in determining a sound-soft ball in inverse acoustic scat...
In this paper, we prove uniqueness in determining a sound-soft ball or polyhedral scatterer in the i...
We prove that a finite number of acoustic far-field measurements is enough for the unique determinat...
We prove that a finite number of acoustic far-field measurements is enough for the unique determinat...
In this paper, we prove uniqueness in determining a sound-soft ball or polyhedral scatterer in the i...
We consider the inverse acoustic scattering problem of determining a sound-hard obstacle by far fiel...
We prove that a sound-soft polyhedral scatterer is uniquely determined by the far-field pattern corr...
In this thesis, we will address two most important topics in inverse acoustic and electromagnetic ob...
AbstractIn this paper,we prove uniqueness in determining a perfectly conducting ball in the inverse ...
Consider time-harmonic acoustic scattering from a bounded penetrable obstacle D ⊂ R N embedded in ...
We consider the inverse problem of determining shape and location of sound-soft defects inside a kno...
The three-dimensional inverse acoustic medium problem of N homogeneous objects with known geometry a...
In this paper we propose a simple method for detecting (shape, size and location) a scatterer embedd...
Abstract. We describe a novel technique, which we call the no response test, to locate the support o...
We consider an inverse scattering problem arising in target iden- tification. We prove a local stabi...
AbstractIn this paper, we prove uniqueness in determining a sound-soft ball in inverse acoustic scat...
In this paper, we prove uniqueness in determining a sound-soft ball or polyhedral scatterer in the i...
We prove that a finite number of acoustic far-field measurements is enough for the unique determinat...
We prove that a finite number of acoustic far-field measurements is enough for the unique determinat...
In this paper, we prove uniqueness in determining a sound-soft ball or polyhedral scatterer in the i...
We consider the inverse acoustic scattering problem of determining a sound-hard obstacle by far fiel...
We prove that a sound-soft polyhedral scatterer is uniquely determined by the far-field pattern corr...
In this thesis, we will address two most important topics in inverse acoustic and electromagnetic ob...
AbstractIn this paper,we prove uniqueness in determining a perfectly conducting ball in the inverse ...
Consider time-harmonic acoustic scattering from a bounded penetrable obstacle D ⊂ R N embedded in ...
We consider the inverse problem of determining shape and location of sound-soft defects inside a kno...
The three-dimensional inverse acoustic medium problem of N homogeneous objects with known geometry a...
In this paper we propose a simple method for detecting (shape, size and location) a scatterer embedd...
Abstract. We describe a novel technique, which we call the no response test, to locate the support o...
We consider an inverse scattering problem arising in target iden- tification. We prove a local stabi...