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Effect of sea waves on vertical underwater visible light communication links

عنوان	Effect of sea waves on vertical underwater visible light communication links
نویسنده	Elamassie, Mohammed, Sait, S. M., Uysal, Murat
تاریخ انتشار:	2023-04
محل انتشار	- IEEE
موضوع	Path loss, Pointing error, Sea waves, Underwater visible light communication, Vertical links
نوع	دوره ای
زبان	انگلیسی
دیجیتال	بله
نسخه خطی	خیر
کتابخانه:	دانشگاه اوزیغین
شناسه دارایی کتابخانه	0364-9059
شماره ثبت	3fe409c8-c9ef-411c-ac9f-956b2c28782d
محل کتابخانه	Electrical & Electronics Engineering
تاریخ	2023-04
یادداشت‌ها	TÜBİTAK ; King Fahd University of Petroleum and Minerals, Dhahran, Saudi Arabia
متن نمونه	Underwater visible light communication (VLC) has been proposed to deal with emerging high bandwidth underwater applications. Initial research works on underwater VLC are based on the assumption that both transmitter and receiver are submerged, creating a horizontal link. In most of the vertical communication links, one of the transceiver nodes takes the form of a buoy and requires taking into the effect of the sea surface, which is inherently unsteady due to wind and waves. In this article, we consider a vertical underwater VLC link where the transmitter is in the form of a buoy at the sea surface, and the receiver is a submerged node at a certain depth. We assume sinusoidal waves and consider the fact that the buoy will fluctuate and oscillate, during drifting up and down, around its vertical axis. This effectively results in a 3-D displacement at the suspended transmitter. Building upon these assumptions of practical relevance, we propose an aggregate channel model, which includes a random path loss due to periodic changes of the transmission distance and a fading term induced by pointing errors with periodic changes of relative movement. Based on the proposed statistical model, we derive closed-form expressions for the exact and asymptotic bit error ratio and investigate the achievable diversity orders. We further present numerical results to confirm the analytical findings.
DOI	10.1109/JOE.2022.3211286
Cilt	48

مشاهده در منبع دانشگاه اوزیغین دانشگاه اوزیغین - موتور جستجوی نسخه های خطی عثمانی

دانشگاه اوزیغین

Effect of sea waves on vertical underwater visible light communication links

نویسنده Elamassie, Mohammed, Sait, S. M., Uysal, Murat

تاریخ انتشار 2023-04

محل انتشار - IEEE

موضوع Path loss, Pointing error, Sea waves, Underwater visible light communication, Vertical links

نوع دوره ای

زبان انگلیسی

دیجیتال بله

نسخه خطی خیر

کتابخانه دانشگاه اوزیغین

شناسه دارایی کتابخانه 0364-9059

شماره ثبت 3fe409c8-c9ef-411c-ac9f-956b2c28782d

محل کتابخانه Electrical & Electronics Engineering

تاریخ 2023-04

یادداشت‌ها TÜBİTAK ; King Fahd University of Petroleum and Minerals, Dhahran, Saudi Arabia

متن نمونه Underwater visible light communication (VLC) has been proposed to deal with emerging high bandwidth underwater applications. Initial research works on underwater VLC are based on the assumption that both transmitter and receiver are submerged, creating a horizontal link. In most of the vertical communication links, one of the transceiver nodes takes the form of a buoy and requires taking into the effect of the sea surface, which is inherently unsteady due to wind and waves. In this article, we consider a vertical underwater VLC link where the transmitter is in the form of a buoy at the sea surface, and the receiver is a submerged node at a certain depth. We assume sinusoidal waves and consider the fact that the buoy will fluctuate and oscillate, during drifting up and down, around its vertical axis. This effectively results in a 3-D displacement at the suspended transmitter. Building upon these assumptions of practical relevance, we propose an aggregate channel model, which includes a random path loss due to periodic changes of the transmission distance and a fading term induced by pointing errors with periodic changes of relative movement. Based on the proposed statistical model, we derive closed-form expressions for the exact and asymptotic bit error ratio and investigate the achievable diversity orders. We further present numerical results to confirm the analytical findings.

DOI 10.1109/JOE.2022.3211286

Cilt 48