Analyzing Indoor/Outdoor Environmental Effects with Varying Cell Size on 5G Millimeter-Wave Propagation

Abstract

In this paper the millimeter-wave cellular communication is analyzed and simulated for the fifth-generation (5G) communication using broadband statistical spatial channel model (SSCM). This model is simulated in NYUSIM developed by research group in New York University which support the wideband carrier frequencies from 500 MHz to 100 GHz with bandwidth in the range of 0 MHz to 800 MHz. Microcells, beamforming and other similar techniques are needed to reduce the losses as the millimeter-wave are unable to travel over longer distances. Millimeter-wave frequency of 28 GHz is initially considered here and its effects on communication due to different environmental parameters such as temperature, relative humidity and rain rate in cities like Hyderabad, Karachi and Islamabad are observed while varying cell sizes. Parameters like received power, pathloss and pathloss exponent are analyzed to predict best suitable cell size in different cities environments.