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引用次数: 0
摘要
在卫星接收不理想的环境中,无人机系统(UAS)可以导航到更高的有利位置,以接收质量更好的卫星广播。小型无人机系统平台受到重量和尺寸的限制,因此很难在无人机系统上实施甚高频天线来接收卫星。本研究设计、模拟并实现了一种小型 V 型偶极子天线,该天线配有匹配电路和低噪声放大器,可从定制的大疆 Matrice 100 无人机系统平台接收高质量的美国国家海洋和大气管理局(NOAA)卫星图像和气象数据。软件定义无线电用于过滤和解调甚高频卫星信号,Nvidia TX2-嵌入式计算机在无人机系统上处理卫星图像。通过图像接收质量和飞行中天线设计的实用性对性能进行了评估。
Design of Active V-Dipole Antenna on UAS for Receiving NOAA Polar Satellite Imagery
In suboptimal environments for satellite reception, an unmanned aerial system (UAS) can navigate to a higher vantage point to receive better quality satellite broadcasts. Small UAS platforms are constrained by weight and size, making VHF antenna implementation difficult for satellite reception onboard a UAS. This research designs, simulates, and implements a small form factor V-dipole antenna with matching circuit and low-noise amplifiers to receive high-quality National Oceanic and Atmospheric Administration (NOAA) satellite imagery and weather data from a custom DJI Matrice 100 UAS platform. A software-defined radio was used to filter and demodulate VHF satellite signals, and an Nvidia TX2-embedded computer processed the satellite images onboard the UAS. Performance was evaluated by the quality of the image reception and practicality of the antenna design in flight.
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