Islam M. Tanash, Ayush Kumar Dwivedi, Fatemeh Rafiei Maleki, Taneli Riihonen
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Enhancing HAP Networks with Reconfigurable Intelligent Surfaces
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.