Non-Line-of-Sight Atmospheric Optical Communication in the Visible Wavelength Range between UAV and the Ground Surface

Tarasenkov, Mikhail V.; Poznakharev, Egor S.; Fedosov, Andrey V.

doi:10.3390/atmos15010021

Cited by 2 publications

References 34 publications

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Advancing Non-Line-of-Sight Communication: A Comprehensive Review of State-of-the-Art Technologies and the Role of Energy Harvesting

Al-Ghafri,

Asif,

Tarhuni

et al. 2024

Sensors

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Enhancing spectral efficiency in non-line-of-sight (NLoS) environments is essential as 5G networks evolve, surpassing 4G systems with high information rates and minimal interference. Instead of relying on traditional Orthogonal Multiple Access (OMA) systems to tackle issues caused by NLoS, advanced wireless networks adopt innovative models like Non-Orthogonal Multiple Access (NOMA), cooperative relaying, Multiple Input Multiple Output (MIMO), and intelligent reflective surfaces (IRSs). Therefore, this study comprehensively analyzes these techniques for their potential to improve communication reliability and spectral efficiency in NLoS scenarios. Specifically, it encompasses an analysis of cooperative relaying strategies for their potential to improve reliability and spectral efficiency in NLoS environments through user cooperation. It also examines various MIMO configurations to address NLoS challenges via spatial diversity. Additionally, it investigates IRS settings, which can alter signal paths to enhance coverage and reduce interference and analyze the role of Unmanned Aerial Vehicles (UAVs) in establishing flexible communication infrastructure in difficult environments. This paper also surveys effective energy harvesting (EH) strategies that can be integrated with NOMA for efficient and reliable energy-communication networks. Our findings show that incorporating these technologies with NOMA not only enhances connectivity and spectral efficiency but also promotes a stable and environmentally sustainable data communication system.

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Advancing Non-Line-of-Sight Communication: A Comprehensive Review of State-of-the-Art Technologies and the Role of Energy Harvesting

Al-Ghafri,

Asif,

Tarhuni

et al. 2024

Sensors

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Scattered Radiation Through the Water - Atmosphere Interface

Тарасенков,

Познахарев,

Белов

2024

XXX Юбилейный Международный Симпозиум Оптика Атмосферы И Океана. Физика Атмосферы

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Рассматривается алгоритм статистического моделирования переноса излучения в канале оптической связи на рассеянном излучении от подводной передающей системы к расположенному в атмосфере БПЛА через границу раздела вода - атмосфера. Для частного случая характеристик приемо-передающей системы оценено отношение сигнал/ шум в зависимости от базового расстояния и высоты расположения БПЛА. An algorithm for statistical modeling of radiation transfer in an optical communication channel based on scattered radiation from an underwater transmission system to a UAV located in the atmosphere across the water-atmosphere interface is considered. For the special case of the characteristics of the receiving-transmitting system, the signal ratio is estimated/ noise depending on the base distance and height of the UAV location.

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Non-Line-of-Sight Atmospheric Optical Communication in the Visible Wavelength Range between UAV and the Ground Surface

Cited by 2 publications

References 34 publications

Advancing Non-Line-of-Sight Communication: A Comprehensive Review of State-of-the-Art Technologies and the Role of Energy Harvesting

Advancing Non-Line-of-Sight Communication: A Comprehensive Review of State-of-the-Art Technologies and the Role of Energy Harvesting

Scattered Radiation Through the Water - Atmosphere Interface

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