Asem Melebari;Sepehr Eskandari;Mahta Moghaddam
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摘要

无人驾驶飞行器(UAVs)作为遥感系统平台的最新进展,为各种应用提供了低成本和易于使用的选择。安装在无人飞行器上的软件定义雷达(SDRadar)就是此类遥感系统的一个例子。为了充分发挥雷达系统的潜力,需要采用低成本和现场就绪的方案对雷达系统进行精确校准。我们的系统是安装在小型无人机上的 SDRadar。雷达波形的带宽为 1 千兆赫,中心频率设定为 750 兆赫。校准采用了一个直径为 59 厘米、高出地面的圆盘作为外部无源目标。我们的结果表明,在实验室和现场条件下,大部分传输波段的校准精度约为 1 dB。然而,在频率范围的最低部分,校准仍面临挑战,因为这部分受到天线图案中高侧裂和光栅裂的影响。该校准过程可适应各种带宽和中心频率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Absolute RCS Calibration of a UAV Ultrawideband Surface Penetrating Radar Using a Disk
Recent advancements in the uncrewed aerial vehicles (UAVs) as remote system platforms have enabled low-cost and easy-to-use options for various applications. An example of such a remote sensing system is a software-defined radar (SDRadar) mounted on a UAV. There is a need to accurately calibrate the radar system with low-cost and field-ready schemes to utilize the full potential of the radar system. Our system is an SDRadar mounted on a small UAV. The waveform of the radar has a 1-GHz bandwidth with a center frequency set to 750 MHz. The calibration employs a 59-cm-diameter disk elevated above the ground as an external passive target. Our results demonstrate a calibration accuracy of approximately 1 dB across most of the transmitted band, in both laboratory and field conditions. However, calibration challenges persist in the lowest parts of the frequency range, which are affected by the high side lobes and grating lobes in the antenna pattern. This calibration process is adaptable to various bandwidths and center frequencies.
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