Add to ORKGA novel concept for suppressing the problem of multipath ghosts in Ground Penetrating Radar (GPR) and Through-Wall Imaging (TWI) is presented. Ghosts (i.e., false targets) mainly arise from the use of the Born or single-scattering approximations that lead to linearized imaging algorithms; however, these approximations neglect the effect of multiple scattering (or multipath) between the electromagnetic wavefield and the object under investigation. In contrast to existing methods of suppressing multipath ghosts, the proposed method models for the first time the reflectivity of the probed objects as a probability function up to a normalized factor and introduces the concept of random subaperture by randomly picking up measurement locations fro...
Ghost Imaging (GI) is an emerging imaging technique which originated from quantum and optical areas....
We proposed an improved solution to two problems. The first problem is caused by the sidelobe of the...
The detection of multiple targets in an enclosed scene, from its outside, is a challenging topic of ...
In through‐the‐wall radar imaging (TWRI), the presence of front and side walls causes multipath prop...
Through-Wall Radar Imaging (TWRI) uses UWB radar technology to detect the targets behind the wall, c...
Radar imaging is typically based on linear models of the electromagnetic scattering phenomenon. Thes...
International audienceIn this study, a new approach is proposed for accurate target identification, ...
© 2020 IEEE This paper considers the problem of multichannel through-wall radar (TWR) imaging from a...
Through-the-Wall Radar Imaging (TWRI) is anemerging technology which enables us to detect behind the...
In this PhD thesis sparsity-based multipath exploitation methods are developed for through-the-wall ...
Clutters caused by multipath have been widely researched in through-the-wall radar imaging (TWRI). T...
We deal with the problem of detecting point-like targets in diffuse multipath environments, modeling...
Multipath caused by reflections from interior walls of buildings has been a long-standing challenge ...
There are many approaches which address multipath ghost challenges in Through-the-Wall Radar Imaging...
It is quite challenging for through-the-wall radar imaging (TWRI) to achieve high-resolution ghost-f...
Ghost Imaging (GI) is an emerging imaging technique which originated from quantum and optical areas....
We proposed an improved solution to two problems. The first problem is caused by the sidelobe of the...
The detection of multiple targets in an enclosed scene, from its outside, is a challenging topic of ...
In through‐the‐wall radar imaging (TWRI), the presence of front and side walls causes multipath prop...
Through-Wall Radar Imaging (TWRI) uses UWB radar technology to detect the targets behind the wall, c...
Radar imaging is typically based on linear models of the electromagnetic scattering phenomenon. Thes...
International audienceIn this study, a new approach is proposed for accurate target identification, ...
© 2020 IEEE This paper considers the problem of multichannel through-wall radar (TWR) imaging from a...
Through-the-Wall Radar Imaging (TWRI) is anemerging technology which enables us to detect behind the...
In this PhD thesis sparsity-based multipath exploitation methods are developed for through-the-wall ...
Clutters caused by multipath have been widely researched in through-the-wall radar imaging (TWRI). T...
We deal with the problem of detecting point-like targets in diffuse multipath environments, modeling...
Multipath caused by reflections from interior walls of buildings has been a long-standing challenge ...
There are many approaches which address multipath ghost challenges in Through-the-Wall Radar Imaging...
It is quite challenging for through-the-wall radar imaging (TWRI) to achieve high-resolution ghost-f...
Ghost Imaging (GI) is an emerging imaging technique which originated from quantum and optical areas....
We proposed an improved solution to two problems. The first problem is caused by the sidelobe of the...
The detection of multiple targets in an enclosed scene, from its outside, is a challenging topic of ...