Sebastian Bertl scite author profile

Abstract. To detect threats on a person's body surface the application of millimetre-waves is possible. In order to get a view of the person from all sides either the person has to be rotated standing on a turntable (Inverse Synthetic Aperture Radar, ISAR) or a sensor is moved on a circular path around the person (Synthetic Aperture Radar, SAR). The goal of the reconstruction is to obtain information about the shape of the threats and their positions in all three dimensions. At first the reconstruction is done along range and azimuth, which span the principal surface given by the sensor configuration. This paper reports on two methods to obtain the third spatial dimension. Due to the circular shape and its 3D focussing ability of the aperture this information can be obtained by the evaluation of the image focus. Secondly, if two coherent receiving channels are used, a possibility to achieve 3D spatial resolution is the processing of the interferometric phase. A comparison between these two will be presented.

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Interferometric focusing for the imaging of humans

Bertl

Dallinger

Detlefsen

2010

IET Radar Sonar Navig.

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Instrument architecture, advanced digital beamforming techniques, and operation modes for an enhanced signal mission concept

López-Dekker

Younis

Bertl

et al. 2013

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Bistatic extension for coherent MMW-ISAR-Imaging of objects and humans

Bertl¹,

Dallinger²,

Detlefsen³

2008

Adv. Radio Sci.

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Abstract. We present a bistatic extension of a broadband monostatic FMCW Radar working in the Millimetre-Wave (MMW) region and its bistatic imaging properties used for imaging purposes. Due to the different perspective of a bistatic setup compared to a monostatic one, additional information can be obtained.A wide bandwidth of approx. 10 GHz is used for the task of high resolution imaging as it could be used for the detection of threats at a person's body in security-sensitive environments. Since MMWs propagate easily through common clothing, it is feasible to image objects like concealed weapons worn under the clothing. MMW-Imaging of humans is one possibility to enhance the capabilities of nowadays security checkpoints, e.g. at airports.

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Sebastian Bertl

UWB Millimeter-Wave FMCW Radar using Hubert Transform Methods

Broadband circular interferometric millimetre-wave ISAR for threat detection

Interferometric focusing for the imaging of humans

Instrument architecture, advanced digital beamforming techniques, and operation modes for an enhanced signal mission concept

Bistatic extension for coherent MMW-ISAR-Imaging of objects and humans

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