Free-space optic (FSO) is a promising solution to provide broadband Internet access for high-speed trains (HSTs). Besides, reconfigurable intelligent surfaces (RIS) are considered as hardware technology to improve performance of optical wireless communication systems. In this paper, we propose a RIS-assisted FSO system to provide access connectivity for HTSs, as an upgrade for the existing direct and relay-assisted FSO access setups. Our motivation is mainly based on well-proven results indicating that a RIS-assisted optical wireless system, with a large enough number of RIS elements, outperforms a relay-assisted one thanks to its programmable structure. We firstly compute the statistical expressions of the considered RIS-assisted FSO channels under weak and moderate-to-strong fading conditions. Then, the network's average signal-to-noise ratio and outage probability are formulated based on the assumed fading conditions, and for two fixed- and dynamic-oriented RIS coverage scenarios. Our results reveal that the proposed access network offers up to around 44% higher data rates and 240% wider coverage area for each FSO base station (FSO-BS) compared to those of the relay-assisted one. The increase of coverage area, on average, reduces 67% the number of required FSO-BSs for a given distance, which results in fewer handover processes compared to the alternative setups. Finally, the results are verified through Monte-Carlo simulations.


翻译:自由空间光学(FSO)是提供高速列车宽带互联网接入的有希望的解决方案。此外,可重新配置的智能表面(RIS)被视为改进光学无线通信系统的功能的硬件技术。在本文件中,我们提议一个RIS辅助FSO系统,为光学无线通信系统提供接入连接,作为现有直接和中继辅助FSO访问设置的升级。我们的动机主要基于经充分证实的结果表明,一个具有足够数量的RIS元素的RIS辅助光学无线系统比中继辅助系统(RIS)更适合其可编程结构。我们首先在弱和中度至强的变形条件下,将经过考虑的TRIS-辅助FSO频道的统计表达方式进行整理,然后,网络的平均信号至噪音比率和外延概率根据假定的蒸气条件和两种固定和动态导向的RIS覆盖情景来制定。我们的结果显示,由于它的可编程结构结构结构,拟议的访问网络提供了大约44%的更高数据率和240%的中继器辅助系统辅助部分。我们首先计算出经过考虑的FSO-BSO系统平均递增至FSO的定位的定位区域。

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