Average channel capacity bounds of a dynamic vehicle-to-vehicle visible light communication system
Alsalami, Farah Mahdi and Benkhelifa, Fatma and Ashour, Danah and Ghassemlooy, Zabih and Haas, Olivier C.L. and Ahmad, Zahir and Rajbhandari, Sujan (2024) Average channel capacity bounds of a dynamic vehicle-to-vehicle visible light communication system. IEEE Transactions on Vehicular Technology, 73 (2). pp. 1513-1523. ISSN 0018-9545 (https://doi.org/10.1109/TVT.2023.3320889)
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Abstract
As vehicles trajectories are unpredictable and changing dynamically, vehicle-to-vehicle visible light communication (V2V-VLC) experiences a dynamic channel. In this work, we conduct measurements taking into account different realistic inter-vehicle distances and ambient noise levels at different times of the day in order to model and verify the dynamic V2V-VLC channel. We also derive the average channel capacity bounds by considering the impact of traffic at different times of the day, atmospheric turbulence and fog. Considering both peak and average optical power levels constraints, we derive the upper and lower bounds by using sphere packing and constraint relaxation methods, as well as truncated-exponential and truncated Gaussian distributions, respectively. The results show that the constraint relaxation method provides an improved estimation for the upper bound, whereas the truncated exponential distribution tightens the lower bound with a minimum gap of 0.4 bit/s/Hz during rush hour and in a clear weather condition. We also show that the average capacity bounds of V2V-VLC are less affected by atmospheric turbulence and fog, and that the capacity during rush hours is higher by 0.7 bit/s/Hz than during late hours.
ORCID iDs
Alsalami, Farah Mahdi, Benkhelifa, Fatma, Ashour, Danah, Ghassemlooy, Zabih, Haas, Olivier C.L., Ahmad, Zahir and Rajbhandari, Sujan ORCID: https://orcid.org/0000-0001-8742-118X;-
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Item type: Article ID code: 86980 Dates: DateEvent1 February 2024Published26 September 2023AcceptedSubjects: Technology > Motor vehicles. Aeronautics. Astronautics
Technology > Electrical engineering. Electronics Nuclear engineering > Telecommunication
Science > Physics > Optics. LightDepartment: Faculty of Science > Physics > Institute of Photonics Depositing user: Pure Administrator Date deposited: 17 Oct 2023 16:03 Last modified: 12 Dec 2024 20:12 URI: https://strathprints.strath.ac.uk/id/eprint/86980