The simulative investigation of the proposed link was carried out using Optisystem version 14 which is a powerful tool for the development and investigation of optical networks. Further, we compare the proposed FSO link performance with previous works reported in the literature showing the superiority of our proposed link. Also, we investigate the BER performance of the proposed link under the influence of beam divergence angle. The performance of the proposed FSO link has been numerically investigated under the influence of dynamic weather conditions such as clear, haze, rain, and fog conditions. Experimental results of NGI-CO-OFDM transmission were showed in 9-14. The original concept of CO-OFDM was proposed in 8. Due to performance characteristics, it is currently being considered for optical transmission in large capacity optical networks. This research has modified the CO-OFDM system using OptiSystem such as optical. In the proposed link, 32 independent wavelength channels are multiplexed, each carrying 200 Gbps dual polarization-quadrature phase shift keying (DP-QPSK) data with 60 GHz channel spacing yield net transmission rate of 6.4 Tbps with spectral efficiency of 3.33 bits/s/Hz. OFDM is a very successful technique in wireless and wireline communication systems. and utilization of the bandwidth are the major challenges for optical OFDM. This work reports the development of an ultra-high capacity Nyquist-wavelength division multiplexing (WDM) superchannel based free space optics (FSO) transmission link.
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