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Spectrum Slicing-Based Performance Analysis of Free Space Optical Communication Under Atmospheric Turbulence
https://orcid.org/http://orcid.org/0000-0001-7868-0622
Free Space Optical Communication (FSO) is becoming the fast-emerging technology. In FSO, the data are transmitted through air with Line-of-sight transmission and are used for larger bandwidths and longer distances. The main advantage of FSO is that it does not require any licenses, digging and complex infrastructure, it also has attractive features like high date rate, security and easy installations. Moreover, FSO faces major challenges due to the environmental conditions like atmospheric turbulence which attenuates the signal and leads to data losses in the transmitted signal. Thus, to prevent these losses, spectrum slicing wavelength division multiplexing (SSWDM) with FSO link is used to provide higher data rate and better transmission. In this paper, the authors have used SSWDM with FSO to observe the changes in Q-factor under different weather conditions like clear sky, haze, and fog. Furthermore, the present researchers have also used BER Analyzer to observe the changes in the eye diagram for different weather conditions to analyze the performance of the signal.
Spectrum Slicing-Based Performance Analysis of Free Space Optical Communication Under Atmospheric Turbulence
https://orcid.org/http://orcid.org/0000-0001-7868-0622
Free Space Optical Communication (FSO) is becoming the fast-emerging technology. In FSO, the data are transmitted through air with Line-of-sight transmission and are used for larger bandwidths and longer distances. The main advantage of FSO is that it does not require any licenses, digging and complex infrastructure, it also has attractive features like high date rate, security and easy installations. Moreover, FSO faces major challenges due to the environmental conditions like atmospheric turbulence which attenuates the signal and leads to data losses in the transmitted signal. Thus, to prevent these losses, spectrum slicing wavelength division multiplexing (SSWDM) with FSO link is used to provide higher data rate and better transmission. In this paper, the authors have used SSWDM with FSO to observe the changes in Q-factor under different weather conditions like clear sky, haze, and fog. Furthermore, the present researchers have also used BER Analyzer to observe the changes in the eye diagram for different weather conditions to analyze the performance of the signal.
Spectrum Slicing-Based Performance Analysis of Free Space Optical Communication Under Atmospheric Turbulence
https://orcid.org/http://orcid.org/0000-0001-7868-0622
Free Space Optical Communication (FSO) is becoming the fast-emerging technology. In FSO, the data are transmitted through air with Line-of-sight transmission and are used for larger bandwidths and longer distances. The main advantage of FSO is that it does not require any licenses, digging and complex infrastructure, it also has attractive features like high date rate, security and easy installations. Moreover, FSO faces major challenges due to the environmental conditions like atmospheric turbulence which attenuates the signal and leads to data losses in the transmitted signal. Thus, to prevent these losses, spectrum slicing wavelength division multiplexing (SSWDM) with FSO link is used to provide higher data rate and better transmission. In this paper, the authors have used SSWDM with FSO to observe the changes in Q-factor under different weather conditions like clear sky, haze, and fog. Furthermore, the present researchers have also used BER Analyzer to observe the changes in the eye diagram for different weather conditions to analyze the performance of the signal.
Spectrum Slicing-Based Performance Analysis of Free Space Optical Communication Under Atmospheric Turbulence
J. Inst. Eng. India Ser. B
Vasani, Ekta (Autor:in) / Shah, Vrushank (Autor:in)
Journal of The Institution of Engineers (India): Series B ; 104 ; 319-326
01.02.2023
8 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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