In this paper, the field prediction inside biological bodies exposed to electromagnetic incident waves is addressed by considering inverse scattering techniques. In particular, the aim is to evaluate the possibility of limiting the test area in order to strongly reduce the computational time, ensuring, at the same time, a quite accurate solution. The approach is based on separating the scattering contributions of the region under test and the other part of the biological body. The starting point is represented by the inverse-scattering equations, which are recast as a functional to be minimized. A Green's function approach is then developed in order to include an approximate knowledge (a model) of the biological body. The possible applicati...
In the presented thesis, the interaction of low-frequency electromagnetic fields with the human body...
The accurate evaluation of the electromagnetic field inside a human head due to the radiation of a c...
Interactions of electromagnetic field (EMF) with environment and with tissue of human beings are sti...
In this paper, a finite element method, based on a boundary value approach, for the evaluation of th...
: A numerical procedure for analyzing electromagnetic (EM) fields interactions with biological tissu...
International audienceDue to the very specific electromagnetic properties of biological tissues, ele...
Two novel methods of microwave imaging for biomedical applications are presented and discussed. The ...
This work presents an analysis concerning the effects of iteration between electromagnetic fields an...
The research focuses on a hybrid experimental-numerical technique, based on Boundary Element Method ...
The main objective of this study is to learn about the theory of electromagnetic field and to create...
An alternative differential framework for the existing integral-based electromagnetic inverse proble...
In this study, an inverse scattering approach is investigated for the detection and imaging of an ab...
In the study of electromagnetic radiation effects over dielectric bodies, effective numerical method...
This work is part of a process aiming at evaluating and improving the performances of existing tools...
Born's iterative technique is widely used in inverse scattering problems, including electromagnetic ...
In the presented thesis, the interaction of low-frequency electromagnetic fields with the human body...
The accurate evaluation of the electromagnetic field inside a human head due to the radiation of a c...
Interactions of electromagnetic field (EMF) with environment and with tissue of human beings are sti...
In this paper, a finite element method, based on a boundary value approach, for the evaluation of th...
: A numerical procedure for analyzing electromagnetic (EM) fields interactions with biological tissu...
International audienceDue to the very specific electromagnetic properties of biological tissues, ele...
Two novel methods of microwave imaging for biomedical applications are presented and discussed. The ...
This work presents an analysis concerning the effects of iteration between electromagnetic fields an...
The research focuses on a hybrid experimental-numerical technique, based on Boundary Element Method ...
The main objective of this study is to learn about the theory of electromagnetic field and to create...
An alternative differential framework for the existing integral-based electromagnetic inverse proble...
In this study, an inverse scattering approach is investigated for the detection and imaging of an ab...
In the study of electromagnetic radiation effects over dielectric bodies, effective numerical method...
This work is part of a process aiming at evaluating and improving the performances of existing tools...
Born's iterative technique is widely used in inverse scattering problems, including electromagnetic ...
In the presented thesis, the interaction of low-frequency electromagnetic fields with the human body...
The accurate evaluation of the electromagnetic field inside a human head due to the radiation of a c...
Interactions of electromagnetic field (EMF) with environment and with tissue of human beings are sti...