@ARTICLE{Mahmood_Aras_S._An_2023,
 author={Mahmood, Aras S.},
 volume={31},
 number={3},
 journal={Opto-Electronics Review},
 pages={e147037},
 howpublished={online},
 year={2023},
 publisher={Polish Academy of Sciences (under the auspices of the Committee on Electronics and Telecommunication) and Association of Polish Electrical Engineers in cooperation with Military University of Technology},
 abstract={Local weather conditions have an impact on the availability of free-space optical (FSO) communication. The variation in meteorological parameters, such as temperature, humidity, and wind speed, leads to variations of the refractive index along the transmission path. These refractive index inhomogeneities produced by atmospheric turbulence induce optical turbulence which is responsible for random fluctuations in the intensity of the laser beam that carries the signal (irradiance) called scintillations that can significantly degrade the performance of FSO systems. This paper aims to investigate the feasibility of deploying FSO communication technology under scintillation effects in any urban region and atmospheric environment. To achieve that, firstly by utilizing the Hufnagel-Vally day with the Sadot and Kopeika models together, the scintillation strength for a specified region, Sulaimani City in north-eastern Iraq as an example, has been estimated through the calculation of the refractive index structure parameter (Cn2) over a period of 10 years and it was found to be at the strong turbulence level. Secondly, from the same estimated parameter, the scintillation attenuation of the signal carrying the laser beam intensity can be calculated to investigate the feasibility of FSO communication using Optysistem-7 software. The optimal link distance for north-eastern Iraq (Sulaimani City) has been found to be within the limit of about 5.5 km. Analysing the max. Q-factor, bit-error rate and signal to noise ratio for an average of 120 months between 2013–2022 assessed the best and worst seasons for FSO.},
 type={Article},
 title={An approach to investigating the feasibility of free-space optical communication technology deployment under scintillation effects},
 URL={http://journals.pan.pl/Content/128276/PDF-MASTER/OPELRE_2023_31_3_A_S_Mahmood.pdf},
 doi={10.24425/opelre.2023.147037},
 keywords={free-space optical communication, atmospheric turbulence, scintillation attenuation, refractive index structure parameter},
}