3-D Simulation of MANET with UAV in Mountainous Areas

2020 35th International Technical Conference on Circuits/Systems, Computers and Communications (ITC-CSCC) Pub Date : 2020-07-01 DOI:10.11648/J.ACIS.20210902.11

M. Harayama, M. Nishioka, Taiki Hayashi

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Abstract

In recent years, there has been a worldwide boom in mountain climbing because the activity has become easier due to the higher functionality and lighter weight of mountaineering equipment. As a result, mountain distress accidents have also increased. In the event of a disaster, effective communication for search and rescue is important. Mobile communication in the mountains, however, is limited because the terrain serves to block radio waves. Therefore, the use of MANET with unmanned aerial vehicles (UAVs; e.g., drones or balloons) is expected, although specific methods have not yet been clarified. Even in the ease of communication simulations, there are elevation differences of several thousand meters on mountain trails, and radio wave propagation losses peculiar to mountains. Therefore, in this study, a three-dimensional MANET simulation was carried out using the Hotaka mountain range as an example ease. Our radio wave propagation model ineludes a two-wave plane ground model, a double mountainous diffraction loss, and vegetation attenuation. The simulation by MANET using UAV as a relay device showed that the UAV expands the communicable area substantially in mountain communication. We also discuss the effects of rainfall and snow.

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基于无人机的山区机动网络三维仿真

近年来，由于登山设备的功能更高、重量更轻，登山活动变得更容易，因此在世界范围内掀起了一股登山热潮。因此，山区遇险事故也有所增加。在灾难发生时，有效的沟通对于搜救是很重要的。然而，山区的移动通信受到限制，因为地形会阻挡无线电波。因此，使用MANET与无人驾驶飞行器(uav);(例如，无人机或气球)，尽管具体方法尚未明确。即使在简单的通信模拟中，山路上也有几千米的高差，而且无线电波的传播损失是山区特有的。因此，本研究以Hotaka山脉为例，进行了三维MANET模拟。我们的无线电波传播模型包括两波平面地面模型、双山衍射损耗和植被衰减。利用无人机作为中继设备进行的MANET仿真表明，无人机在山地通信中显著扩大了可通信区域。我们还讨论了降雨和降雪的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 35th International Technical Conference on Circuits/Systems, Computers and Communications (ITC-CSCC)

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