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Ultra-lightweight synthetic aperture radar based on a 35 GHz FMCW sensor concept and online raw data transmission

Ultra-lightweight synthetic aperture radar based on a 35 GHz FMCW sensor concept and online raw data transmission

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With the increasing number of small-size unmanned aerial vehicles (UAVs) for remote sensing, reconnaissance and surveillance applications, the demand for miniaturised and low weight synthetic aperture radar (SAR) sensor systems for these platforms has increased. Because of the extreme payload weight restrictions of unmanned platforms, size, weight and power (SWP) characteristics actually become dominating design drivers for UAV SAR developments. The author focuses on the development of a highly miniaturised SAR (MISAR) sensor that was especially designed for UAVs with stringent payload SWP constraints. The paper gives an overview of the design considerations for the MISAR sensor system. The realisation of the sensor is described and the results of test flights in fixed-wing aircraft, rotary-wing aircraft and in UAVs are presented.

Inspec keywords: synthetic aperture radar; FM radar; CW radar; remotely operated vehicles; search radar; aerospace testing; remote sensing by radar

Other keywords: FMCW sensor; unmanned aerial vehicle; small-size UAV; online raw data transmission; size weight-power; ultra-lightweight synthetic aperture radar; remote sensing; fixed-wing aircraft; surveillance application; SWP characteristics; miniaturised SAR; rotary-wing aircraft; test flight

Subjects: Radar equipment, systems and applications; Aerospace testing and simulation; Other topics in Earth sciences

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