Title :
Enhancing the Atmospheric Visibility and Fog Attenuation Using a Controlled FSO Channel
Author :
Ijaz, Muhammad ; Ghassemlooy, Zabih ; Perez, J.M. ; Brazda, V. ; Fiser, Ondrej
Author_Institution :
Opt. Commun. Res. Group, Northumbria Univ., Newcastle upon Tyne, UK
Abstract :
In this letter, two methods for characterizing fog attenuation in terms of atmospheric visibility V in free space optics (FSO) communications are analyzed and compared. Both methods measure the fog attenuation based on V using a charge-coupled device (CCD) camera and a laser-diode at 0.55 μm. The methods are evaluated in a laboratory controlled FSO atmospheric chamber operating at individual wavelengths of 0.83, 1.31, and 1.55 μm using a continuous optical spectrum range 0.6-1.6 μm. The CCD technique shows great accuracy for V <; 50 m and the laser technique for the range 100 m, thus allowing enhancement of the characterization of FSO links in thick and dense fog conditions. The experimental results also show a wavelength dependency for V <; 0.5 km where the attenuation decreases from 52 dB/km at visible wavelengths to 46 dB/km at near infrared wavelengths.
Keywords :
CCD image sensors; atmospheric optics; fog; infrared spectra; measurement by laser beam; optical links; optical variables measurement; semiconductor laser arrays; telecommunication channels; visibility; visible spectra; CCD technique; FSO links; atmospheric visibility; charge-coupled device camera; continuous optical spectrum; controlled FSO channel; dense fog condition; fog attenuation measurement; free space optical communications; laboratory controlled FSO atmospheric chamber; laser technique; laser-diode; near infrared wavelength; thick fog condition; visible wavelength; wavelength 0.55 mum to 1.6 mum; wavelength dependence; Free space optics; fog attenuation; visibility;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2013.2264046
