Title :
SARape - Synthetic aperture radar for all weather penetrating UAV application
Author :
Caris, Michael ; Stanko, Stephan ; Sommer, Rainer ; Wahlen, Alfred ; Leuther, A. ; Tessmann, A. ; Malanowski, M. ; Samczynski, P. ; Kulpa, K. ; Cohen, Moshik ; Kovacs, Peter ; Papanastasiou, Andreas ; Topping, Christopher ; Georgiou, Giorgos ; Guraly, Rol
Author_Institution :
Fraunhofer Inst. for High Freq. Phys. & Radar Tech. FHR, Wachtberg, Germany
Abstract :
In this paper the SARape system (Synthetic Aperture Radar for all weather penetrating UAV application) is presented. The purpose of the SARape project was to build up expertise in SAR measurements from UAVs (Unmanned Aerial Vehicle) and to develop a demonstrator which shows the prospects of the device. The main goal was a miniaturized design of the sensor system enabling the implementation into a low payload UAV, with a focus on the availability of a live SAR display on ground. The small-sized 94 GHz radar frontend with an output power of more than 100 mW, a high bandwidth (1 GHz) and an utmost coherence combined with the fast onboard preprocessing, the digital data link and the real-time SAR processing is a novelty on UAVs.
Keywords :
autonomous aerial vehicles; millimetre wave radar; synthetic aperture radar; SARape system; bandwidth 1 GHz; frequency 94 GHz; miniaturized design; synthetic aperture radar for all weather penetrating UAV application; unmanned aerial vehicle; Aircraft; Bandwidth; Radar antennas; Radar imaging; Real-time systems; Synthetic aperture radar;
Conference_Titel :
Radar Symposium (IRS), 2013 14th International
Conference_Location :
Dresden
Print_ISBN :
978-1-4673-4821-8
