Echoes from small reflectors buried in heavy clutter are weak and difficult to distinguish from the medium backscatter. Detection and imaging with sensor arrays in such media requires filtering out the unwanted backscatter and emphasizing the echoes from the reflectors that we wish to locate. We consider a detection and filtering approach based on the singular value decomposition of the local cosine transform of the array response matrix. The algorithm applies to general clutter, but its analysis depends on the model of the medium. This paper is concerned with the analysis of the algorithm in finely layered random media. We obtain a detailed characterization of the singular values of the transformed array response matrix and justify the sys...
We present a comprehensive study of the resolution and stability properties of sparse promoting opti...
We present a method to obtain quantitatively accurate images of small obstacles or inhomogeneities s...
We present a method to obtain quantitatively accurate images of small obstacles or inhomogeneities s...
Abstract. Objects that are buried deep in heterogeneous media produce faint echoes which are difficu...
Objects that are buried deep in heterogeneous media produce faint echoes which are difficult to dist...
We consider the problem of selective imaging extended reflectors in cluttered media. We propose a ra...
Abstract. Sensor array imaging arises in applications such as nondestructive evaluation of materials...
Mathematical Sciences Research Institute PublicationsThe imaging of a small target embedded in a med...
This work was also published as a Rice University thesis/dissertation.Imaging compactly supported re...
We consider the problem of imaging small defects embedded in strongly scattering media, often called...
Imaging compactly supported reflectors in highly heterogeneous media is a challenging problem due to...
Abstract. We consider correlation-based imaging of a reflector located on one side of a passive arra...
We consider the inverse problem of array imaging of active sources (targets) in randomly inhomogeneo...
Abstract. We consider imaging in a scattering medium where the illumination goes through this medium...
Coherent interferometry is an array imaging method in which we back propa-gate, or migrate, crosscor...
We present a comprehensive study of the resolution and stability properties of sparse promoting opti...
We present a method to obtain quantitatively accurate images of small obstacles or inhomogeneities s...
We present a method to obtain quantitatively accurate images of small obstacles or inhomogeneities s...
Abstract. Objects that are buried deep in heterogeneous media produce faint echoes which are difficu...
Objects that are buried deep in heterogeneous media produce faint echoes which are difficult to dist...
We consider the problem of selective imaging extended reflectors in cluttered media. We propose a ra...
Abstract. Sensor array imaging arises in applications such as nondestructive evaluation of materials...
Mathematical Sciences Research Institute PublicationsThe imaging of a small target embedded in a med...
This work was also published as a Rice University thesis/dissertation.Imaging compactly supported re...
We consider the problem of imaging small defects embedded in strongly scattering media, often called...
Imaging compactly supported reflectors in highly heterogeneous media is a challenging problem due to...
Abstract. We consider correlation-based imaging of a reflector located on one side of a passive arra...
We consider the inverse problem of array imaging of active sources (targets) in randomly inhomogeneo...
Abstract. We consider imaging in a scattering medium where the illumination goes through this medium...
Coherent interferometry is an array imaging method in which we back propa-gate, or migrate, crosscor...
We present a comprehensive study of the resolution and stability properties of sparse promoting opti...
We present a method to obtain quantitatively accurate images of small obstacles or inhomogeneities s...
We present a method to obtain quantitatively accurate images of small obstacles or inhomogeneities s...