Distributed Spatial Modulation for Unmanned Aerial Vehicle-Base Station to Ground Cooperative Communication

2021 29th Telecommunications Forum (TELFOR) Pub Date : 2021-11-23 DOI:10.1109/TELFOR52709.2021.9653292

Ayse Betül Büyüksar, Mehmet Can, I. Altunbas

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Abstract

In this paper, we present the error performance of a multi-relay network scenario for the unmanned aerial vehicle (UAV)-base stations (BS). In the considered system, multiple ground relays assist the transmission, using distributed spatial modulation (DSM) technique, from the UAV-BS to the ground destination. UAV-BS to ground links are affected by both path loss and shadowed-Rician fading, while the ground to ground link is affected by both path loss and Rayleigh fading. In the proposed system, indices of the relays are also used to convey information, and only one relay whose index is matched to the determined relay index can be active in transmission depending on the success of cyclic redundancy checking (CRC). The bit error probability (BEP) for the considered system is derived and validated by Monte Carlo simulations. The effects of different shadowing severities are investigated. Moreover, the considered DSM system is compared against the conventional decode and forward (DF) system, and it is shown that DSM provides a better error probability, especially under lower shadowing severity.

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无人机基站对地协同通信的分布式空间调制

本文研究了无人机-基站多中继网络场景下的误差性能。在考虑的系统中，多个地面继电器使用分布式空间调制(DSM)技术辅助传输，从无人机- bs到地面目的地。UAV-BS到地链路同时受到路径损耗和阴影衰落的影响，而地链路同时受到路径损耗和瑞利衰落的影响。在该系统中，中继的索引也被用来传递信息，只有索引与所确定的中继索引匹配的中继才能在传输中被激活，这取决于循环冗余校验(CRC)的成功与否。推导了该系统的误码概率(BEP)，并通过蒙特卡罗仿真进行了验证。研究了不同荫蔽强度的影响。此外，将所考虑的DSM系统与传统的解码和转发(DF)系统进行了比较，结果表明DSM系统具有更好的错误概率，特别是在较低的阴影严重程度下。

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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2021 29th Telecommunications Forum (TELFOR)

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