The choice of matching medium in microwave imaging for biomedical applications is studied. A multi-layer planar human tissue is first used to investigate the amount electromagnetic wave is transmitted through the tissue model using different matching medium. This will give us further insights on wave propagation through human tissue, which assists us to determine to choice of matching medium. Image reconstruction of simplified human breast model with different matching medium using an inverse scattering algorithm will be used to verify our findings
Recent years have seen an increased interest in ultra wideband (UWB) microwave imaging systems as an...
Medical imaging refers to several different technologies that are used to view the human body in ord...
This paper deals with the breast tumor detectionability of a planar microwave imaging system. Indeed...
The choice of matching medium in microwave imaging for biomedical applications is studied. A multi-l...
In microwave-based medical diagnosis, reflections of electromagnetic waves from the air-skin interfa...
Active microwave imaging gives information on the dielectric properties of of the body, allowing the...
Radiofrequency (RF) and microwave technologies have widespread applications, such as communication, ...
The choice of matching medium can directly affect the amount of power transmitted into and through h...
A microwave tomographic scanner for biomedical applications is presented. It consists of a 64-elemen...
A microwave imaging model is presented for detection of breast cancer tissues by combining the finit...
The clinical applications of a microwave tomographic system are studied. Imaging parameters are appr...
Microwave tomography deserves attention in biomedical imaging, owing to its potential capability of ...
Microwave imaging is an efficient diagnostic modality for non-invasively visualizing dielectric cont...
A theoretical model for the variations in the biomechanical properties of breast tissues under the i...
Microwaves have been considered for medical applications involving the detection of organ movements ...
Recent years have seen an increased interest in ultra wideband (UWB) microwave imaging systems as an...
Medical imaging refers to several different technologies that are used to view the human body in ord...
This paper deals with the breast tumor detectionability of a planar microwave imaging system. Indeed...
The choice of matching medium in microwave imaging for biomedical applications is studied. A multi-l...
In microwave-based medical diagnosis, reflections of electromagnetic waves from the air-skin interfa...
Active microwave imaging gives information on the dielectric properties of of the body, allowing the...
Radiofrequency (RF) and microwave technologies have widespread applications, such as communication, ...
The choice of matching medium can directly affect the amount of power transmitted into and through h...
A microwave tomographic scanner for biomedical applications is presented. It consists of a 64-elemen...
A microwave imaging model is presented for detection of breast cancer tissues by combining the finit...
The clinical applications of a microwave tomographic system are studied. Imaging parameters are appr...
Microwave tomography deserves attention in biomedical imaging, owing to its potential capability of ...
Microwave imaging is an efficient diagnostic modality for non-invasively visualizing dielectric cont...
A theoretical model for the variations in the biomechanical properties of breast tissues under the i...
Microwaves have been considered for medical applications involving the detection of organ movements ...
Recent years have seen an increased interest in ultra wideband (UWB) microwave imaging systems as an...
Medical imaging refers to several different technologies that are used to view the human body in ord...
This paper deals with the breast tumor detectionability of a planar microwave imaging system. Indeed...