Add to ORKGA prototype imaging system for active microwave tomography using cylindrical geometry has been developed, making is possible to obtain images of the dielectric properties of biological targets at 2.45 GHz. The system requires no mechanical movements to illuminate the body from multiple directions (views) and measure the scattered fields. In this way a complete data set consisting in 64 views is acquired in 3 s using low-power illumination. The system is described, including images obtained with biological phantoms and actual bodies.Peer Reviewe
A comparative study at 2.45 GHz concerning both measurement and reconstruction parameters for planar...
A microwave tomographic scanner for biomedical applications is presented. It consists of a 64-elemen...
A microwave tomographic scanner for biomedical applications is presented. It consists of a 64-elemen...
A prototype imaging system for active microwave tomography using cylindrical geometry has been deve...
A prototype imaging system for active microwave tomography using cylindrical geometry has been devel...
A prototype imaging system for active microwave tomography using cylindrical geometry has been devel...
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...
A cylindrical system for microwave tomography working at 2.45 GHz has been presented. In this setup,...
A cylindrical system for microwave tomography working at 2.45 GHz has been presented. In this setup,...
A cylindrical system for microwave tomography working at 2.45 GHz has been presented. In this setup,...
A cylindrical system for biomedical microwave tomography is presented. The circular algorithms and s...
A cylindrical system for biomedical microwave tomography is presented. The circular algorithms and s...
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...
A comparative study at 2.45 GHz concerning both measurement and reconstruction parameters for planar...
A microwave tomographic scanner for biomedical applications is presented. It consists of a 64-elemen...
A microwave tomographic scanner for biomedical applications is presented. It consists of a 64-elemen...
A prototype imaging system for active microwave tomography using cylindrical geometry has been deve...
A prototype imaging system for active microwave tomography using cylindrical geometry has been devel...
A prototype imaging system for active microwave tomography using cylindrical geometry has been devel...
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...
A cylindrical system for microwave tomography working at 2.45 GHz has been presented. In this setup,...
A cylindrical system for microwave tomography working at 2.45 GHz has been presented. In this setup,...
A cylindrical system for microwave tomography working at 2.45 GHz has been presented. In this setup,...
A cylindrical system for biomedical microwave tomography is presented. The circular algorithms and s...
A cylindrical system for biomedical microwave tomography is presented. The circular algorithms and s...
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...
A comparative study at 2.45 GHz concerning both measurement and reconstruction parameters for planar...
A microwave tomographic scanner for biomedical applications is presented. It consists of a 64-elemen...
A microwave tomographic scanner for biomedical applications is presented. It consists of a 64-elemen...