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NTIS 바로가기The journal of the institute of internet, broadcasting and communication : JIIBC, v.23 no.5, 2023년, pp.131 - 138
장진현 (ICT 폴리텍대학 클라우드인터넷과)
In this paper, a free space optical communication device that can be used in a mobile base station of several km or less was fabricated and its characteristics were investigated. To overcome the loss due to atmospheric transmission, an optical fiber amplifier (EDFA) with an output of 23 dBm or more ...
C. I. Yeo, etc "Recent R&D Trends of Mobile FSO?Technilogies. Electronics and Telecommunications?Trend. 2018.
M. A. Khalighi and M. Uysal, "Survey on free space?optical communication: A communication theory?perspective," IEEE Commun. Surv. Tut., vol. 16, no. 4,?pp. 2231-2258, Jun. 2014.
B. Bag, A. Das, I. Ansari, A. Prokes, C. Bose, and A.?Chandra, "Performance analysis of hybrid FSO systems?using FSO/RF-FSO link adaptation,"IEEE Photon. J., vol.?10, no. 3, May 2018, Art no. 7904417.
K. A. Winick, "Atmospheric turbulence induced signal?fades on optical heterodyne communication links".?Appl. Opt.. vol.25, pp1817-1825. June 1986.
J.H.Jung "Pulse Broadening of Optical Pulse Propagated?through the Turbulent Atmosphere", The Journal of?Korean Institute of Electromagnetic Engineering and?Science, vol.15-1, 2004
Eui-Seok Jeon, Ho-Myoung An, & Byungcheul Kim?(2021). A study on AC-powered LED driver IC. Journal?of Korea Institute of Information, Electronics, and?Communication Technology, 14(4), 275-283.
R. Nebuloni and E. Verdugo, "FSO Path Loss Model?Based on the Visibility", IEEE Photinics Journal, vol. 14,?no. 2, april 2022
I. I. Kim, B. McArthur, and E. Korevaar, "Comparison of?laser beam propagation at 785 nm and 1550 nm in fog?and haze for optical wireless communications," in Proc.?SPIE, 2001, pp. 26-37.
M. Gebhart et al., "Measurement of light attenuation in?dense fog conditions for FSO applications," Atmos. Opt.?Model., Meas., Simul., vol. 58691, pp. 175-186, 2005.
K. Dev, R. Nebuloni, C. Capsoni, O. Fiser, and V.?Brazda, "Estimation of optical attenuation in reduced?visibility conditions in different environments across?free space optics link," IET Microw., Antennas Propag.,?vol. 11, no. 12, pp. 1708-1713, 2017.
Free-space optics wavelength selection: 10 μm versus?shorter wavelengths Journal of Optical Networking Vol.?2, Issue 6, pp. 127-143, 2003
T. Ismail, E. Leitgeb, and T. Plank, "Free space optic and?mmWave communications: Technologies, challenges?and applications," IEICE Trans. Commun., vol. E99-B,?no. 6, pp. 1243-1254, 2016.
D. K. Borah and D. G. Voelz, "Pointing error effects on?free-space optical communication links in the presence?of atmospheric turbulence," J. Lightw. Technol., vol. 27,?no. 18, pp. 3965-3973, 2009.
R. Nebuloni and C. Capsoni, "Effects of adverse weather?on free space optics," Opt. Wireless Commun., pp. 47-68, 2016.
M. Grabner and V. Kvicera, "Multiple scattering in rain?and fog on frees pace optical links," J. Lightw. Technol.,?vol. 32, no. 3, pp. 513-520, 2014.
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