Design and Evaluation of a Hybrid 2D-SWZCC OCMDA System with Multicarrier MM-Wave

Abstract

 This paper presents a hybrid communication system combining optical code division
multiple access (OCDMA) and multicarrier millimeter-wave (MM-Wave) architecture operating at 35, 55,
75, and 95 GHz connected to a home network center (HNC) and the end user (EU). Hybrid Link reduces
congestion on complex RF networks by combining optical fiber backhaul with radio links. The OptiSystem
simulation demonstrates successful data transmission and transmission capacity at 40 Gbps over various
distances. Furthermore, this new 40G-MM wave OCDMA system that takes advantage of a two-dimensional
single-weighted zero cross-correlation (2D-SWZCC) system with a multiplexing scheme of polarization
wavelength multiplies the same N channels to M OCDMA code of the MM-Wave system that dramatically
increased scalability. The comparative analysis shows that the proposed 2D-SWZCC hybrid algorithm
outperforms 1D-SWZCC regarding scalability. This study contributes to developing communication
algorithms with high data rates and provides promising solutions for method limitations and scalability in
hybrid-MM-Wave-OCDMA architectures.