Add to ORKGA numerical method and experimental technique for microwave imaging of inhomogenous bodies is presented. This method is based on the interpretation of the diffraction phenomena and leads to tomographic reconstruction of the body under investigation. Various numerical examples are given on spatial impulse response, recognition of dielectric rods, inhomogeneous bodies, and simulated human arm. Different experimental results on dielectric rods and isolated animal organs are also given.Peer ReviewedPostprint (published version
Brain injuries represent a critical situation, where both detection and monitoring should be quick a...
Microwave tomography for non-destructive detection of internaldielectric properties has received inc...
A comparative study at 2.45 GHz concerning both measurement and reconstruction parameters for planar...
A numerical method and experimental technique for microwave imaging of inhomogenous bodies is presen...
Active microwave imaging gives information on the dielectric properties of of the body, allowing the...
Active microwave imaging gives information on the dielectric properties of of the body, allowing the...
Active microwave imaging gives information on the dielectric properties of of the body, allowing the...
In this work the active tomographic imaging of biological bodies which exhibits a high dielectric co...
In this work the active tomographic imaging of biological bodies which exhibits a high dielectric co...
Microwaves have been considered for medical applications involving the detection of organ movements ...
Hitherto described microwave modalities for detection of internal inhomogeneities in human tissues s...
Hitherto described microwave modalities for detection of internal inhomogeneities in human tissues s...
A two-dimensional microwave system is developed to explore the possibility of imaging the distributi...
The authors examine the use of active microwave tomography as an imaging technique which gives infor...
The authors examine the use of active microwave tomography as an imaging technique which gives infor...
Brain injuries represent a critical situation, where both detection and monitoring should be quick a...
Microwave tomography for non-destructive detection of internaldielectric properties has received inc...
A comparative study at 2.45 GHz concerning both measurement and reconstruction parameters for planar...
A numerical method and experimental technique for microwave imaging of inhomogenous bodies is presen...
Active microwave imaging gives information on the dielectric properties of of the body, allowing the...
Active microwave imaging gives information on the dielectric properties of of the body, allowing the...
Active microwave imaging gives information on the dielectric properties of of the body, allowing the...
In this work the active tomographic imaging of biological bodies which exhibits a high dielectric co...
In this work the active tomographic imaging of biological bodies which exhibits a high dielectric co...
Microwaves have been considered for medical applications involving the detection of organ movements ...
Hitherto described microwave modalities for detection of internal inhomogeneities in human tissues s...
Hitherto described microwave modalities for detection of internal inhomogeneities in human tissues s...
A two-dimensional microwave system is developed to explore the possibility of imaging the distributi...
The authors examine the use of active microwave tomography as an imaging technique which gives infor...
The authors examine the use of active microwave tomography as an imaging technique which gives infor...
Brain injuries represent a critical situation, where both detection and monitoring should be quick a...
Microwave tomography for non-destructive detection of internaldielectric properties has received inc...
A comparative study at 2.45 GHz concerning both measurement and reconstruction parameters for planar...