爆炸物
光学
信号(编程语言)
毫米
干扰(通信)
带宽(计算)
极高频率
频带
杂乱
雷达
声学
计算机科学
物理
电信
化学
频道(广播)
有机化学
程序设计语言
作者
D. J. Andrews,Nacer Ddine Rezgui,Sarah E. Smith,Nicholas Bowring,Matthew Southgate,John G. Baker
摘要
Millimetre waves in the range 20 to 110 GHz have been used to detect the presence and thickness of dielectric materials, such as explosives, by measuring the frequency response of the return signal. Interference between the reflected signals from the front and back surfaces of the dielectric provides a characteristic frequency variation in the return signal, which may be processed to yield its optical depth [Bowring et al, Meas. Sci. Technol. 19, 024004 (2008)]. The depth resolution depends on the sweep bandwidth, which is typically 10 to 30 GHz. By using super-heterodyne detection the range of the object can also be determined, which enables a signal from a target, such as a suicide bomber to be extracted from background clutter. Using millimetre wave optics only a small area of the target is illuminated at a time, thus reducing interference from different parts of a human target. Results are presented for simulated explosive materials with water or human backing at stand-off distances. A method of data analysis that involves pattern recognition enables effective differentiation of target types.
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