Vehicular visible light communication with low beam transmitters in the presence of vertical oscillation

Name: Vehicular visible light communication with low beam transmitters in the presence of vertical oscillation
Author: Mohamed, Bassam Aly Abdelrahman, Elamassie, Mohammed, Uysal, Murat

İsim	Vehicular visible light communication with low beam transmitters in the presence of vertical oscillation
Yazar	Mohamed, Bassam Aly Abdelrahman, Elamassie, Mohammed, Uysal, Murat
Basım Tarihi:	2023-08
Basım Yeri	- IEEE
Konu	Truck platoon, Vehicle-to-Vehicle communication, Vertical oscillation, Visible light communication
Tür	Süreli Yayın
Dil	İngilizce
Dijital	Evet
Yazma	Hayır
Kütüphane:	Özyeğin Üniversitesi
Demirbaş Numarası	0018-9545
Kayıt Numarası	37305a72-c587-4e4c-a3dc-34492e955e58
Lokasyon	Electrical & Electronics Engineering
Tarih	2023-08
Notlar	European Union’s Horizon 2020
Örnek Metin	The availability of light-emitting diodes (LEDs) in vehicle exteriors makes possible the use of visible light communication (VLC) as a vehicle-to-vehicle (V2V) wireless connectivity solution. While there has been a growing literature on vehicular VLC, the existing works inherently assume the deployment of regular passenger vehicles. In this paper, we consider the use of VLC for vehicular connectivity between heavy vehicles such as trucks. We assume that low beam headlights are used as transmitters. Due to the nature and function of vehicular low beam lighting, the upward distribution of lighting is fundamentally different from its downward distribution. Hence, the vertical displacement (i.e., the height difference between transmitter and receiver) and the vertical oscillation experienced by heavy vehicles might significantly impact the VLC link. Based on experimental measurements, we first propose an accurate path loss model that takes into account the effect of vertical displacement and oscillation. Then, we derive a bit error rate (BER) expression for VLC-based truck-to-truck communication system and investigate the effect of several system and channel parameters on the performance. In an attempt to mitigate the degrading effects of the vertical oscillation, we further investigate the proper selection of photodetector location to minimize the error rate performance.
DOI	10.1109/TVT.2023.3253762
Cilt	72

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Vehicular visible light communication with low beam transmitters in the presence of vertical oscillation

Yazar Mohamed, Bassam Aly Abdelrahman, Elamassie, Mohammed, Uysal, Murat

Basım Tarihi 2023-08

Basım Yeri - IEEE

Konu Truck platoon, Vehicle-to-Vehicle communication, Vertical oscillation, Visible light communication

Tür Süreli Yayın

Dil İngilizce

Dijital Evet

Yazma Hayır

Kütüphane Özyeğin Üniversitesi

Demirbaş Numarası 0018-9545

Kayıt Numarası 37305a72-c587-4e4c-a3dc-34492e955e58

Lokasyon Electrical & Electronics Engineering

Tarih 2023-08

Notlar European Union’s Horizon 2020

Örnek Metin The availability of light-emitting diodes (LEDs) in vehicle exteriors makes possible the use of visible light communication (VLC) as a vehicle-to-vehicle (V2V) wireless connectivity solution. While there has been a growing literature on vehicular VLC, the existing works inherently assume the deployment of regular passenger vehicles. In this paper, we consider the use of VLC for vehicular connectivity between heavy vehicles such as trucks. We assume that low beam headlights are used as transmitters. Due to the nature and function of vehicular low beam lighting, the upward distribution of lighting is fundamentally different from its downward distribution. Hence, the vertical displacement (i.e., the height difference between transmitter and receiver) and the vertical oscillation experienced by heavy vehicles might significantly impact the VLC link. Based on experimental measurements, we first propose an accurate path loss model that takes into account the effect of vertical displacement and oscillation. Then, we derive a bit error rate (BER) expression for VLC-based truck-to-truck communication system and investigate the effect of several system and channel parameters on the performance. In an attempt to mitigate the degrading effects of the vertical oscillation, we further investigate the proper selection of photodetector location to minimize the error rate performance.

DOI 10.1109/TVT.2023.3253762

Cilt 72