Title :
The development of a motion-compensated, vehicle mounted, ultrawideband radar for buried landmine detection
Author :
Hill, Andrew J. ; Crisp, Graeme ; Ratcliffe, Justin
Author_Institution :
QinetiQ, Malvern
Abstract :
The performance of a vehicle mounted mine detection radar system, developed by QinetiQ, has recently been enhanced by the inclusion of a position and attitude measurement system, using the combination of a differential GPS receiver and an inertial measurement unit. In this paper we present the development of a motion-compensation scheme based upon data from these sensors. Previous to this development, high quality radar images could only be produced from data gathered on relatively flat and even terrain, where uncompensated antenna motion caused by vehicle attitude changes was minimal. However, the new motion compensation scheme has been shown to successfully track the antenna feed positions to within 1 cm accuracy, thus enabling data collection over far more arduous terrain
Keywords :
Global Positioning System; antenna feeds; attitude measurement; ground penetrating radar; landmine detection; military radar; motion compensation; position measurement; radar antennas; radar imaging; ultra wideband radar; Global Positioning System; antenna feed position; antenna motion; arduous terrain; attitude measurement system; buried landmine detection; differential GPS receiver; inertial measurement unit; motion-compensation; position measurement system; radar images; ultra-wideband radar; vehicle attitude; vehicle mounted radar; Global Positioning System; Landmine detection; Measurement units; Position measurement; Radar antennas; Radar detection; Radar imaging; Radar measurements; Ultra wideband radar; Vehicle detection; Mine-detection and GPS; Radar; SAR; UWB; motion-compensation;
Conference_Titel :
Radar Conference, 2006. EuRAD 2006. 3rd European
Conference_Location :
Manchester
Print_ISBN :
2-9600551-7-9
DOI :
10.1109/EURAD.2006.280325
