Add to ORKGIn this contribution we enhance the capabilities of our bio-inspired inversion method to retrieve the dielectric frequency-dependent permittivity of the layers that compose a biological structure. For this, we incorporate a statistical processing stage to reliably establish confidence intervals and uncertainties related to the retrieved parameters. Also, we employ a dispersion model to realistically describe the optical properties of materials involved. Ultimately, we evaluate, through some examples, the robustness of the inversion scheme in the presence of noise
ABSTRACT. The paper outlines different versions of a novel method for determining the dielectric pro...
A class of microwave imaging methods based on integral equations and the moment method is considered...
International audienceBy means of heuristic optimization techniques, we estimate the unknown refract...
Natural photonic structures exhibit remarkable color effects such as metallic appearance and iridesc...
International audienceThis investigation addresses the inverse problem of the retrieval of the macro...
This work is aimed at a preliminary design and implementation of a system solving the inverse proble...
Evolutionary algorithms used in non-explicit inverse problems may represent a crucial helpful instru...
The goal of this theoretical study is the improvement of the techniques of determining electromagnet...
In biological dielectric spectroscopy, where dispersions are substantially broader than that expecte...
The gradient method, Levenberg-Marquardt (LM) method, L₂ cooled roughness (CRL2) method and L₁ coole...
Frequency dependent dielectric properties are important for understanding the structure and dynamics...
We present a new method for determining the complex dielectric permittivity profile of 3D inhomogene...
A non-resonant technique to retrieve the dielectric permittivity of an unknown sample is presented. ...
In the present work we have presented a reliable and efficient algorithm for the data inversion, whi...
This article deals with the determination of permittivity and dissipation factor of thin layers in m...
ABSTRACT. The paper outlines different versions of a novel method for determining the dielectric pro...
A class of microwave imaging methods based on integral equations and the moment method is considered...
International audienceBy means of heuristic optimization techniques, we estimate the unknown refract...
Natural photonic structures exhibit remarkable color effects such as metallic appearance and iridesc...
International audienceThis investigation addresses the inverse problem of the retrieval of the macro...
This work is aimed at a preliminary design and implementation of a system solving the inverse proble...
Evolutionary algorithms used in non-explicit inverse problems may represent a crucial helpful instru...
The goal of this theoretical study is the improvement of the techniques of determining electromagnet...
In biological dielectric spectroscopy, where dispersions are substantially broader than that expecte...
The gradient method, Levenberg-Marquardt (LM) method, L₂ cooled roughness (CRL2) method and L₁ coole...
Frequency dependent dielectric properties are important for understanding the structure and dynamics...
We present a new method for determining the complex dielectric permittivity profile of 3D inhomogene...
A non-resonant technique to retrieve the dielectric permittivity of an unknown sample is presented. ...
In the present work we have presented a reliable and efficient algorithm for the data inversion, whi...
This article deals with the determination of permittivity and dissipation factor of thin layers in m...
ABSTRACT. The paper outlines different versions of a novel method for determining the dielectric pro...
A class of microwave imaging methods based on integral equations and the moment method is considered...
International audienceBy means of heuristic optimization techniques, we estimate the unknown refract...