Free space communications, using optical carriers (Free Space Optics, FSO) technology, ensure high data rates, with relatively low error rates, low power consumption and inherent security. However, FSO links are quite sensitive to atmospheric conditions. Fog droplets, but also raindrops and snowflakes, may introduce severe path attenuation which drastically reduces the channel availability. A parametric model to simulate droplets scattering effects on FSO links (from visible to near infrared wavelengths) is proposed in terms of scattering coefficients, albedo factor and asymmetry coefficient as function of the particle water content. Both single and multiple scattering effects are shown and discussed. A prototype of a stochastic time series generator of FSO rain attenuation is also presented. © 2013 IEEE.
Hydrometeor scattering and stochastic modeling for free-space optical channel characterization / Mori, Saverio; Marzano, FRANK SILVIO; Mereu, Luigi; Montopoli, Mario; Beleffi, G. M. T.; Di Bartolo, S.. - ELETTRONICO. - (2013), pp. 58-62. (Intervento presentato al convegno 2nd International Workshop on Optical Wireless Communications (IWOW) tenutosi a Newcastle Upon Tyne; United Kingdom nel 21-21 Oct. 2013) [10.1109/IWOW.2013.6777777].
Hydrometeor scattering and stochastic modeling for free-space optical channel characterization
MORI, SAVERIO;MARZANO, FRANK SILVIO;MEREU, LUIGI;MONTOPOLI, MARIO;
2013
Abstract
Free space communications, using optical carriers (Free Space Optics, FSO) technology, ensure high data rates, with relatively low error rates, low power consumption and inherent security. However, FSO links are quite sensitive to atmospheric conditions. Fog droplets, but also raindrops and snowflakes, may introduce severe path attenuation which drastically reduces the channel availability. A parametric model to simulate droplets scattering effects on FSO links (from visible to near infrared wavelengths) is proposed in terms of scattering coefficients, albedo factor and asymmetry coefficient as function of the particle water content. Both single and multiple scattering effects are shown and discussed. A prototype of a stochastic time series generator of FSO rain attenuation is also presented. © 2013 IEEE.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
