PROJECT TITLE :

Network planning for 802.11ad and MT-MAC 60 GHz fiber-wireless gigabit wireless local area networks over passive optical networks

ABSTRACT:

We have a tendency to present a study concerning the network designing of 60 GHz gigabit wireless native area networks (WLANs) over existing passive optical network (PON) infrastructures. Two fiber-wireless configurations for gigabit WLAN network formations are investigated: i) the Radio & Fiber (R&F) approach that considers several 802.11ad access points connected to conventional gigabit passive optical network (GPON) optical network units, henceforth termed as the GPON-plus-802.11ad approach; and ii) the Radio-over-Fiber (RoF) paradigm that employs several remote access units operating beneath the medium-transparent MAC (MT-MAC) protocol, hence termed because the MT-MACover- PON approach. Simulation-primarily based throughput and delay results are obtained for both network scenarios, revealing the dependence of the 60 GHz enterprise network performance on many network-planning parameters like load, traffic shape, variety of optical wavelengths in the backhaul, and optical backhaul fiber length, highlighting in every case the prevailing architecture. Based mostly on the respective findings we tend to also study a hybrid multitier architecture, termed the GPON-and-MT-MAC approach, that fuses the abilities of both the RoF and R&F architectures in order to optimally mix their properties and set a framework for next-generation sixty Ghz fiber-wireless networks.