@ARTICLE{Tawfik_Nagwan_I._Non-line_2024, author={Tawfik, Nagwan I. and El-Mokadem, Eslam S. and Aly, Moustafa H. and El-Deeb, Walid S.}, volume={32}, number={2}, journal={Opto-Electronics Review}, pages={e150180}, howpublished={online}, year={2024}, 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={Visible light communication is seen as a crucial technology within optical wireless communication systems. The technology of vehicular visible light communication holds significant importance in the context of connected vehicles. This technology can serve as a supplementary solution to vehicular systems that are based on radio frequency. In this paper, the authors conduct an analysis of the performance of both line-of-sight and non-line-of-sight vehicle-to-vehicle visible light communication systems under the effect of artificial light source and weather conditions, including clear, hazy, and foggy weather. A practical vehicular laser diode, a street lamp, and an avalanche photodiode are used to design the proposed system model. Performance enhancement for the proposed system is achieved using an optical amplifier at the receiving end. An artificial light source of light-emitting diode Corn-type is used to represent an ambient artificial light source. Different metrics such as quality factor and bit error rate are used to assess the system performance of the non-line-of-sight-vehicular communication system. The proposed line-of-sight model achieves a data rate of 25 Gbps, supporting a distance of 80 m under clear sky and hazy atmospheric conditions. For foggy weather, an attainable link distance of 70 m is achieved. The achieved results emphasize the suitability of the suggested models for vehicular applications in real world environment.}, type={Article}, title={Non-line of sight analysis for vehicular visible light communication system: Impact of artificial light source and weather conditions}, URL={http://ochroma.man.poznan.pl/Content/131247/PDF-MASTER/OPELRE_2024_32_2_N_I_Tawfik.pdf}, doi={10.24425/opelre.2024.150180}, keywords={artificial light source, laser diode, optical amplifier, non-line of sight, Q-factor, vehicular communication}, }