Mobile data traffic has been largely generated indoors. However, indoor cellular networks
have been studied either on a two-dimensional (2D) plane or as an intractable optimization …

Building structures significantly impact the performance of indoor wireless networks.
Specifically, wall penetration (WP) attenuates the electromagnetic wave, and blocks both the …

Complex building structures constrain indoor wireless communications. The significant
dependence between the indoor wireless network performance and the building structures …

According to current regulation, millimeter wave links can only rely on low transmission
power, which calls for high gain steerable antenna arrays to generate very directional …

In this paper we analyze the performance of a mobile edge computing (MEC) system in the
presence of spatially correlated shadowing. To achieve this goal, obstacles like walls are …

The main target of this chapter is to provide a system-level perspective on the interplay
between data and energy transfer in a SWIPT-based system in the presence of spatially …

The ever-boosting indoor traffic demands make indoor wireless communications a necessity
in buildings. The performance of an indoor wireless network is constrained by the building …

In order to cope with the exponential growth in wireless capacity demands, network
operators will deploy a large number of small cells to improve spatial spectrum reuse …

To better characterize indoor small cell networks (SCN), we consider the blockages caused
by interior walls and employ the bounded path loss model to derive the expression for …

Operators of cellular networks are hard pressed to provide a seamless wireless connection
to their users. Due to the expanded demand not only for coverage but also for increased …