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We introduce a novel Ka-band microwave imaging system operating at 35 GHz. Central to the performance of this system is a direct field inversion algorithm requiring only one minute of processing time per image slice cross section. The imaging system is a single-frequency transmission device, consisting of a stationary single Ka-band transmit horn antenna and a Ka-band open-ended waveguide receive...
We propose a unique microwave through-the-wall imaging technology for three-dimensional objects. The imaging technique is based on the Field Mapping Algorithm (FMA), which is a direct inversion method requiring neither optimization nor iterative procedures.
We introduce an efficient microwave imaging system for medical applications, especially suited for breast cancer detection. The imaging system consists of a fixed source for transmit on one end, and a scanning, receiving sensor on the other, with the target placed in between. The image of the internal organ/limb tissue under examination is then obtained across a three-dimensional region, based upon...
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