Investigation on Heavy Precipitation Effects over FSO Link

Talib, M.F; Rahman, A. K.; Anuar, M. S.; Rashidi, C. B. M.; Aljunid, S. A.

doi:10.1051/matecconf/20179701113

Cited by 2 publications

(1 citation statement)

References 2 publications

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“…Thus, the scattering due to rainfall (non-selective scattering) is less effective than to fog (Mie scattering). The rain scattering coefficient can be determined using the Stroke Law [20]:…”

Section: Atmospheric Effectsmentioning

confidence: 99%

Analysis of Free-Space Optics Development

Mikołajczyk¹,

Bielecki²,

Bugajski³

et al. 2017

Metrology and Measurement Systems

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The article presents state of work in technology of free-space optical communications (Free Space Optics − FSO). Both commercially available optical data links and their further development are described. The main elements and operation limiting factors of FSO systems have been identified. Additionally, analyses of FSO/RF hybrid systems application are included. The main aspects of LasBITer project related to such hybrid technology for security and defence applications are presented.

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Section: Atmospheric Effectsmentioning

confidence: 99%

Analysis of Free-Space Optics Development

Mikołajczyk¹,

Bielecki²,

Bugajski³

et al. 2017

Metrology and Measurement Systems

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Performance Analysis of Free Space Optics Link Under the Effect of Rain Attenuation

Aziz

Nor

Zabidi

2021

2021 8th International Conference on Computer and Communication Engineering (ICCCE)

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Free space optical (FSO) networking has emerged as a promising technology for bridging the last mile gap in current high-rate fibre networks as well as for high-rate next-generation broadband wireless communication networks. This paper theoretically investigates the performance of the Free Space Optic system under rainy weather conditions using Optisystem software. Quality factor and eye-diagram analysis are used to analyse the FSO performance for several rain intensity and precipitation, following the Carbonneau model for rain attenuation . The results show that the link is completely lost when the distances are at 1.5 km, 1.2 km, and 0.8 km for light rain , moderate rain , and heavy rain , respectively. An optical amplifier is then introduced to improve the system performances and increase the signal intensity, which helps to mitigate the atmospheric effects easily. As a result, data transmission is sustained without interruptions, and overall connectivity is enhanced. Results show that the transmission range improves up to several meters, specifically under moderate rain weather condition when using the optical amplifier gain is applied.

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Investigation on Heavy Precipitation Effects over FSO Link

Cited by 2 publications

References 2 publications

Analysis of Free-Space Optics Development

Analysis of Free-Space Optics Development

Performance Analysis of Free Space Optics Link Under the Effect of Rain Attenuation

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