Root K, Adametz J, Gumbmann F, Ullmann I, Vossiek M (2022)
Publication Type: Journal article
Publication year: 2022
Original Authors: Konstantin Root, Julian Adametz, Frank Gumbmann, Ingrid Ullman, Martin Vossiek
Pages Range: 1-13
Reliable and convenient walk-through security scanning, which doesn't separate people or impede their movement, is an extremely challenging task. In this paper, a novel approach for a security check with an overhead observation and a polarimetric target decomposition is presented. The viewing angle of the scanner equals a side-looking airborne radar. However, it will be shown that the established polarimetric target decomposition methods of remote-sensing are not well suited for close-range radar imaging and need to be adapted due to the differences in the geometry of the imaging scenario. The usage of a multiple input and multiple output (MIMO) array and the shorter distance between array and target need a changed decomposition technique in order to distinguish between persons with or without worn threat objects. The differences between radar remote-sensing and close-range imaging scenarios are investigated. An optimized version of the Sato four-component polarimetric scattering decomposition is derived. The proposed close-range adjustment is applied to the model and investigated experimentally with a 4-to-12 GHz fully polarimetric MIMO imaging system. Polarimetric decomposition is carried out on defined test structures with known scattering mechanisms, as well as on mannequins and persons with different threat objects like guns or explosives. In test campaigns, promising results were achieved for a correct target decomposition in radar-based walk-through security scanning.
APA:
Root, K., Adametz, J., Gumbmann, F., Ullmann, I., & Vossiek, M. (2022). Improved Threat Detection in Walk-Through Security Scanning Using an Optimized Polarimetric Target Decomposition Method. IEEE Journal of Microwaves, 1-13. https://dx.doi.org/10.1109/JMW.2022.3209164
MLA:
Root, Konstantin, et al. "Improved Threat Detection in Walk-Through Security Scanning Using an Optimized Polarimetric Target Decomposition Method." IEEE Journal of Microwaves (2022): 1-13.
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