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 | Document Date: 2014-07-19 00:05:22Open Document File Size: 342,13 KBShare Result on FacebookCityMontreal / /CompanyJohn Wiley and Sons / AirFiber Inc. / IEEE Journal / /CountryCanada / /CurrencyUSD / / /FacilityOregon State University / Qiwei Wang Kelley Engineering Center / USA Alan X. Wang Kelley Engineering Center / Free-space Optic Communication System / Thinh Nguyen Kelley Engineering Center / /IndustryTermfree-space optical technology / wireless capacity / carrier class availability / efficient algorithmic solutions / wireless capacity using complement / optoelectronic devices / recent free-space optics technologies / efficient fso/rf communication systems / wide-area networks / projected gradient algorithm / wireless technologies / indoor free space optic networks / obvious solution / wifi/fso hybrid network / recent freespace optics technologies / free-space optic wireless devices / last-mile solution / user device / hybrid systems / overall wireless capacity / communication networks / state lighting technology / wireless devices / wireless capacities / /NaturalFeatureTheoretical FSO channel / RF channel / FSO channel / /OrganizationNational Science Foundation / Oregon State University / School of EECS / /PersonWang Kelley / Alan X. Wang / /PositionLED driver / /ProvinceOrStateQuebec / Oregon / /Technologyprojected gradient algorithm / Ethernet / laser / LAN / FSO technology / proposed algorithm / WiFi technology / state lighting technology / Free Space Optic technology / wireless devices / free-space optical technology / recent freespace optics technologies / recent free-space optics technologies / Gigabit / existing wireless technologies / Simulation / WiFi technologies / Wi-Fi / enhancing wireless capacity using complement FSO technology / /URLhttp /SocialTag |