A 100 GHz millimeter wave radar system with 32 transmitters and 32 receivers for space applications
Microwave Conference(2012)
Abstract
This paper describes the design of a 100 GHz millimeter wave radar system for space applications with operating distances below 20 m and a desired lateral resolution of 3 cm × 3 cm. Transmitting quasi-orthogonal spreading sequences enables a parallel operation of the 32 transmitters and 32 receivers. Thanks to a linear stage, the receiver positions can be further manipulated so that a higher number of receiver positions is synthesized. In addition, we present a computationally efficient simulation framework with digital focusing that accounts for the antenna patterns via suitable weighting coefficients. Accurate 3D reconstructions are presented for a siemens star that is modeled with a multitude of point targets.
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Key words
point target multitude,radar transmitters,3d reconstructions,siemens star,mimo radar,millimetre wave receivers,radio transmitters,code division multiplexing,spread spectrum radar,linear stage,antenna patterns,digital focusing,aerospace simulation,millimeter wave radar system,frequency 100 ghz,32 receivers,transmitters,quasiorthogonal spreading sequences,antenna radiation patterns,receivers,space communication links,weighting coefficients,space vehicle antennas,millimetre wave radar,32 transmitters,radar receivers,space applications,receiver positions,parallel operation
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