Full-body, real-time, millimeter-wave imaging systems have been developed at the Pacific Northwest National Laboratory for the detection of body-worn, concealed weapons and contraband at security checkpoints. These security systems employ methods derived from microwave holography techniques that utilize phase and amplitude information recorded over a two-dimensional aperture to reconstruct a focused image of the target. Millimeter-wave imaging is well suited for the detection of concealed weapons or other contraband carried on personnel, since millimeter waves are non-ionizing, readily penetrate common clothing material, and are reflected from the human body and any concealed items. In this paper, wide-bandwidth, three-dimensional, holographic microwave imaging techniques and a full-body, planar, millimeter-wave imaging system are described.
Revised: July 17, 2007 |
Published: July 16, 2003
Citation
McMakin D.L., D.M. Sheen, and T.E. Hall. 2003.Millimeter-wave imaging for concealed weapon detection. In Nondestructive Detection and Measurement for Homeland Security. Proceedings of the SPIE, edited by Steven R. Doctor; Yoseph Bar-Cohen; A. Emin Aktan, 5048, 52-62. Bellingham, Washington:International Society for Optical Engineering.PNNL-SA-39773.doi:10.1117/12.484704