Born's iterative technique is widely used in inverse scattering problems, including electromagnetic medical imaging. The method, nevertheless, suffers from some limitations associated with the applicability range, and accuracy. In this work, it will be shown that replacing the popularly-used electric wave equation by its magnetic counterpart in inverse scattering formulation, leads us to significantly improve the above limitations. To this end, and using the magnetic wave equation, the field-dependent contrast source of the imaged object, is divided into two spatial types of sources: The known average contrast source, and the small unknown fluctuation contrast source. Then, considering the known average contrast source as the background dom...
This paper presents a microwave imaging for brain tumour detection utilizing ForwardBackward Time-St...
: A numerical procedure for analyzing electromagnetic (EM) fields interactions with biological tissu...
An alternative differential framework for the existing integral-based electromagnetic inverse proble...
The portability of electromagnetic tomography (EMT) systems provides the possibility for exploiting ...
Two novel methods of microwave imaging for biomedical applications are presented and discussed. The ...
This talk is devoted to the Electromagnetic Imaging of materials. Electromagnetic Imaging of materia...
The features of Microwave Imaging (MI) drive its potential to be widely implemented in different fie...
The Born-iterative method (BIM) and the distorted-Born-iterative method (DBIM) have been proposed an...
Compared to the TM case, the inverse scattering problem for the TE incident field is more complicate...
Brain tumour is among the deadliest disease that is fatal if left untreated. An early detection is v...
Microwave Imaging represents a potential, interesting modality for a great variety of applications i...
The distorted Born iterative method (DBIM) computes iterative solutions to nonlinear inverse scatter...
Iterative methods are suitable for solving large-size problems in the electromagnetic and acoustic w...
A new approach for the inversion of measured scattered data is proposed in this paper. The approach ...
The extended Born, or localized nonlinear (LN) approximation, of integral equation (IE) solution has...
This paper presents a microwave imaging for brain tumour detection utilizing ForwardBackward Time-St...
: A numerical procedure for analyzing electromagnetic (EM) fields interactions with biological tissu...
An alternative differential framework for the existing integral-based electromagnetic inverse proble...
The portability of electromagnetic tomography (EMT) systems provides the possibility for exploiting ...
Two novel methods of microwave imaging for biomedical applications are presented and discussed. The ...
This talk is devoted to the Electromagnetic Imaging of materials. Electromagnetic Imaging of materia...
The features of Microwave Imaging (MI) drive its potential to be widely implemented in different fie...
The Born-iterative method (BIM) and the distorted-Born-iterative method (DBIM) have been proposed an...
Compared to the TM case, the inverse scattering problem for the TE incident field is more complicate...
Brain tumour is among the deadliest disease that is fatal if left untreated. An early detection is v...
Microwave Imaging represents a potential, interesting modality for a great variety of applications i...
The distorted Born iterative method (DBIM) computes iterative solutions to nonlinear inverse scatter...
Iterative methods are suitable for solving large-size problems in the electromagnetic and acoustic w...
A new approach for the inversion of measured scattered data is proposed in this paper. The approach ...
The extended Born, or localized nonlinear (LN) approximation, of integral equation (IE) solution has...
This paper presents a microwave imaging for brain tumour detection utilizing ForwardBackward Time-St...
: A numerical procedure for analyzing electromagnetic (EM) fields interactions with biological tissu...
An alternative differential framework for the existing integral-based electromagnetic inverse proble...