ABSTRACT
As the growing aspect of globalization and with the advent of wireless technologies, accurate channel modelling becomes the necessity. Millimeter wave communication is considered to be the key technology of the fifth era remote correspondence standard to fulfil the expanding need for traffic by empowering its colossal transmission capacity. This paper addresses the requirements of 5G channel models designed to support frequencies up to 100 gigahertz. 5G technologies require proper channel modelling components like path RMS delay, path loss and received power profile in LOS and NLOS environments. This paper presents NYUSIM 1.5 version which can simulate a consistent channel realization in both time and space. This examination utilizing NYUSIM 1.5 contributes to a legitimate channel model that ought to have the option to reliably repeat the channel parameters which are obtained in field estimations and precisely presage the spatial as well as time cognate channel impulse replication alongside towards astronomically immense-scale fading. As from the recent researches it is an alternative for channel design and authentic model found than 3GPP and other channel models for millimetre wave bands. It is preferably considered to support physical and design at the link layer for 5th generation cellular communication. In this paper, the analysis of channel parameters is conducted predicated on UMa and UMi scenarios. The environments are considered of key importance in this analysis because the channel model describes the way in which wireless channel parameters behave in a given scenario and further, the analysis helps to evaluate link and system-level performance.
