Abstract
Optical communication system is preferred over microwave and radio frequency communication system because of license free operation. Simulative analysis of 10gbps Optical Communication using different optical bands of L-Band S-Band, E-Band and C-Band under different attenuation condition has been performed in this paper. The Free Space Optics system has been analyzed with transmission distance of 1 km using Optical Wireless Communication channel and the effect of variation in attenuation value in the scenario of different weather conditions (clear, haze, rain and fog) were also examined. The Optical Fiber Communication is also examined under conditions of attenuations due to physical imperfections. The cross-layer Artificial Intelligence Framework is implemented to perform the prediction of different optical communication. The diffused channel is studied by varying the parameters of transmitter half angle and the distance of separation between the transmitter and the receiver. The attenuation effects of the links are also taken into consideration. Bit Error Rate and Quality factor performance of the different optical links are carried over at different wavelengths; thus the best link for the particular wavelength and the distance is identified.
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GK: Writing—original draft, Data curation, Validation. RSK: Writing—review and editing, Conceptualization. YHR: Original draft Conceptualization. SV: Data curation, Validation. ST: Conceptualization, Writing—original draft. PS: Formal analysis, Conceptualization. MK: Validation, Supervision.
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This article is part of the Topical Collection on Photonic Integrated Circuits for High-Speed Optical Networks, Guest edited by Shanmuga Sundar Dhanabalan, Marcos Flores Carrasco, Rajesh M. Sanjivani, Arun Thirumurugan and Sitharthan R.
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Karpagarajesh, G., Santhana Krishnan, R., Harold Robinson, Y. et al. Comparative analysis of FSO, OFC and diffused channel links in photonics using artificial intelligence based S-band, C-band and L-band of the attenuation metrics. Opt Quant Electron 54, 420 (2022). https://doi.org/10.1007/s11082-022-03762-0
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DOI: https://doi.org/10.1007/s11082-022-03762-0