Drone-Based Fluorescence Lidar for Agricultural Applications

V. Lednev, V. A. Zavozin, M. Grishin, D. Grigorieva, P. Sdvizhenskii
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Abstract

We developed ultracompact fluorescence LiDAR for agricultural applications. To minimize the device, we used laser diode (wavelength 405 nm and power consumption 150 mW) and minispectrometer with wavelength range from 350 nm to 810 nm. We used single board computer to control LiDAR instrument. Small size (10×15×5 cm) and low weight (310 g) of the LiDAR make it possible to install it on a commercial unmanned aerial vehicle (UAV). Maize field have been sensed by LiDAR to distinguish healthy and plants under stress. Due the measurement we constructed field maps in different wavelengths of fluorescent radiation.
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基于无人机的农业应用荧光激光雷达
我们开发了用于农业的超紧凑荧光激光雷达。为了使器件最小化,我们使用波长为405 nm、功耗为150 mW的激光二极管和波长为350 ~ 810 nm的微型光谱仪。我们使用单板计算机控制激光雷达仪器。激光雷达的小尺寸(10×15×5厘米)和低重量(310克)使其可以安装在商用无人驾驶飞行器(UAV)上。利用激光雷达对玉米田进行传感,以区分健康和受胁迫的植株。通过测量,我们构建了不同波长荧光辐射的场图。
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