Enhancing HAP Networks with Reconfigurable Intelligent Surfaces

Islam M. Tanash, Ayush Kumar Dwivedi, Fatemeh Rafiei Maleki, Taneli Riihonen
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Abstract

This paper presents and analyzes a reconfigurable intelligent surface (RIS)-based high-altitude platform (HAP) network. Stochastic geometry is used to model the arbitrary locations of the HAPs and RISs as a homogenous Poisson point process. Considering that the links between the HAPs, RISs, and users are $\kappa$--$\mu$ faded, the coverage and ergodic capacity of the proposed system are expressed. The analytically derived performance measures are verified through Monte Carlo simulations. Significant improvements in system performance and the impact of system parameters are demonstrated in the results. Thus, the proposed system concept can improve connectivity and data offloading in smart cities and dense urban environments.
利用可重构智能表面增强 HAP 网络
本文介绍并分析了基于可重构智能表面(RIS)的高空平台(HAP)网络。随机几何用于将高空平台和智能表面的任意位置建模为同质泊松点过程。考虑到 HAP、RIS 和用户之间的链接是褪色的,因此表达了拟议系统的覆盖范围和遍历容量。通过蒙特卡罗模拟验证了分析得出的性能指标。结果表明,系统性能和系统参数的影响都有显著改善。因此,所提出的系统概念可以改善智能城市和密集城市环境中的连接和数据卸载。
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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