Design and Implementation of Laser Rangefinderfor Obstacle Height Monitoring on Line of Sight of Microwave Communication Link

The Indonesian Green Technology Journal Pub Date : 2018-07-23 DOI:10.21776/ub.igtj.2018.007.02.03

H. Hudiono, M. Taufik, P. Yoga, M. D. Atmadja

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引用次数: 1

Abstract

A laser rangefinder is a device that uses laser light to determine the distance of an object. The working principle of this laser rangefinder is that the laser beam that is emitted to the object will be reflected back to the rangefinder, and the required propagation time of laser beam will be calculated to get the distance value. In this study, a laser rangefinder system was designed to be used as monitoring of obstacle height between the line of sight of a microwave communication link using a quadcopter, which is used as a top-viewer picture taker. The quadcopter was used as a device to carry the laser rangefinder to measure the obstacle height between the location points of near-end and far-end. The obstacle height reading results were transmitted using a 5.8 GHz wireless transceiver to the monitoring location in real time. The data received were then processed to be displayed in the form of obstacle height graph as a function of the line of sight communication distance. The test results show that the implementation of laser rangefinder technology has an accuracy of more than 90%. Keywords : Line of Sight, Laser Rangefinder, Near-end and far-end, Quadcopter, Obstacle

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微波通信链路视距障碍物高度监测激光测距仪的设计与实现

激光测距仪是一种利用激光来确定物体距离的装置。该激光测距仪的工作原理是将发射到物体上的激光束反射回测距仪，通过计算激光束所需的传播时间得到距离值。在本研究中，设计了一种激光测距系统，用于使用四轴飞行器监测微波通信链路视线之间的障碍物高度，该四轴飞行器用作顶部观看者。四轴飞行器作为装置携带激光测距仪测量近端和远端定位点之间的障碍物高度。障碍物高度读数结果通过5.8 GHz无线收发器实时传输到监测位置。然后对接收到的数据进行处理，以障碍物高度图的形式显示为视线通信距离的函数。测试结果表明，采用激光测距技术实现的测距精度在90%以上。关键词:瞄准线，激光测距仪，近端和远端，四轴飞行器，障碍物

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The Indonesian Green Technology Journal

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