Optimization of High-Performance Analysis with Plastic Optical Fibers Technique in Advanced Local Area Optical Communication Networks

Abstract

The purpose of the present research is to explain the bandwidth optimization and wavelength division of plastic optical fiber. In Advanced Local Area Optical Communication Networks, the researcher will attempt to define High Performance Plastic Optical Fibers Technique. The paper describes the analysis of LAN transmission using Plastic Optical Fiber (POF) for transmission of the WDM kind. Stage index couplers of plastic optical fibre (SI-POF) and SI-POF were used. The paper also provided a contrast between the propagation spectrum of various wavelengths and the prospects for using the existing WDM in the LAN network. This research presented the three set of graph which showing the comparison between standard fiber optic communication and bandwidth optimized with Normalized frequency of set, SNR vs BER and subcarrier index utilization under N=64, Sym=100000; N=256, Sym=1000000; N=512, Sym=100000. The study also indicates that the achievable output of 16-wavelength DWDM circuits with a length of approximately 35 km would not be ideal for analogue video (assuming that such signals differ between optical signals), but will be sufficient for at least 256-512 component-resolution QAM signals. We can infer that the higher optical signal strength, average repeater spacing, soliton bit rate and product per channel within traditional Raman amplification in plastic fibre media link is sufficient for optimum transmission distance in local area optical communication networks.”