滑翔伞间通信的确定性无线电传播模型

2014 11th Annual Conference on Wireless On-demand Network Systems and Services (WONS) Pub Date : 2014-04-02 DOI:10.1109/WONS.2014.6814734

Juergen Eckert, D. Eckhoff, R. German

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引用次数: 5

摘要

研究表明，滑翔伞运动员可以从临时通信中受益匪浅，无论是出于安全考虑，还是通过交换热信息延长飞行时间。这些所谓的飞行自组织网络(fanet)的模拟可以帮助评估这些和其他低成本和大规模应用的可行性和性能。它们的特定通信特性是由不可避免的次优天线放置和三维节点分布造成的，需要精确的信道和传播模型，以便在仿真环境中产生有意义的结果。我们确定了对接收信号强度(RSS)有重大影响的两个重要参数，即滑翔伞与其水平相对方位之间的垂直角度。基于广泛的实际生活实验，我们提出了一个确定性和计算成本低廉的无线电传播模型，能够可靠地预测我们的测量结果。我们的工作使滑翔伞之间的无线通信的真实模拟。

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A deterministic radio propagation model for inter-paraglider communication

It has been shown that paragliders could considerably benefit from ad-hoc communication, be it for safety or the prolonging of flight times through the exchange of thermal information. The simulation of these so called Flying Ad-Hoc Networks (FANETs) can help evaluate the feasibility and performance of these and other applications inexpensively and at large scale. Their specific communication characteristics, caused by inevitable suboptimal antenna placement and 3D node distribution, require accurate channel and propagation models in order to produce meaningful results in a simulation environment. We identify two important parameters that heavily influence the Received Signal Strength (RSS), namely the vertical angle between paragliders and their horizontal relative bearing. Based on extensive real life experiments we present a deterministic and computationally inexpensive radio propagation model that is able to reliably predict our measurements. Our work allows the realistic simulation of wireless communication between paragliders.

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来源期刊

2014 11th Annual Conference on Wireless On-demand Network Systems and Services (WONS)

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