The purpose of a microwave imaging system is to solve the inverse scattering problem of illuminating an unknown object by microwave energy. This paper outlines some of the main challenges which could be faced in a time domain measurement. The most important sources of errors are discussed and some suggestions for reducing the error are given. 1
The measurement accuracy of time domain systems for microwave tomography are evaluated through syste...
A comparison of two different reconstruction algorithms developed for microwave tomographic imaging ...
Two different types of time domain signals, pulse and pseudo random noise (PN) sequence, were invest...
This paper presents a time domain microwave system developed for medical diagnostics. An imaging tes...
This thesis focuses on microwave hardware development for medical applications. In this thesis, we h...
Detection of malignant breast tumors at their earliest stage, when they are less than 5mm in diamete...
We perform a theoretical analysis of the measurement accuracy of ultrawideband time domain systems. ...
Wideband microwave imaging is of interest wherever optical opaque scenarios need to be analyzed, as ...
An introduction to the most relevant theoretical and algorithmic aspects of modern microwave imaging...
This paper describes the ongoing pursuit of developing a time-domain (TD) ultra-wideband (UWB) micro...
Abstract—In this paper, we investigate the use of several different materials in order to calibrate ...
This thesis presents both theoretical formulations and experimental methods for performing broadband...
A time domain microwave imaging system for biomedical applications was developed using off-the-shelf...
Nonlinear microwave imaging heavily relies on an accurate numerical electromagnetic model of the ant...
This paper deals with direct/inverse electromagnetic scattering for imaging applications. In particu...
The measurement accuracy of time domain systems for microwave tomography are evaluated through syste...
A comparison of two different reconstruction algorithms developed for microwave tomographic imaging ...
Two different types of time domain signals, pulse and pseudo random noise (PN) sequence, were invest...
This paper presents a time domain microwave system developed for medical diagnostics. An imaging tes...
This thesis focuses on microwave hardware development for medical applications. In this thesis, we h...
Detection of malignant breast tumors at their earliest stage, when they are less than 5mm in diamete...
We perform a theoretical analysis of the measurement accuracy of ultrawideband time domain systems. ...
Wideband microwave imaging is of interest wherever optical opaque scenarios need to be analyzed, as ...
An introduction to the most relevant theoretical and algorithmic aspects of modern microwave imaging...
This paper describes the ongoing pursuit of developing a time-domain (TD) ultra-wideband (UWB) micro...
Abstract—In this paper, we investigate the use of several different materials in order to calibrate ...
This thesis presents both theoretical formulations and experimental methods for performing broadband...
A time domain microwave imaging system for biomedical applications was developed using off-the-shelf...
Nonlinear microwave imaging heavily relies on an accurate numerical electromagnetic model of the ant...
This paper deals with direct/inverse electromagnetic scattering for imaging applications. In particu...
The measurement accuracy of time domain systems for microwave tomography are evaluated through syste...
A comparison of two different reconstruction algorithms developed for microwave tomographic imaging ...
Two different types of time domain signals, pulse and pseudo random noise (PN) sequence, were invest...