| Document Date: 2013-01-08 20:06:27
Open Document File Size: 1,59 MBShare Result on Facebook
City Anaheim / Chicago / Valley / / Company Quantum Electronics / IEEE Journal / / Country United States / Australia / / / Facility Mill Valley / Computer Systems Engineering Monash University / University Science Books / / IndustryTerm indoor applications / optical wireless system / indoor optical wireless communications / Wireless MIMO System With / wireless optical communication system / broadband optical wireless communications / Wireless Links Using LCD-Camera pairs / demodulation technology / data communication systems / optical wireless context / camera technology / wireless optical channels / optical wireless / Wireless Communications Thomas Q. Wang / optical wireless communications / optical wireless systems / optical wireless channels / optical systems / Wireless Communications / energy efficiency / typical indoor optical wireless communications scenarios / imaging / non-imaging / high-speed infrared wireless communication / Wireless in-house data communication / wireless networks / optical wireless communications using white / optical wireless communication / Wireless Infrared Communications / / NaturalFeature Nt channel / / Organization Jean Armstrong Department of Electrical and Computer Systems Engineering Monash University Melbourne / / Person Thomas Q. Wang / Y. Ahmet Sekercioglu / / ProvinceOrState California / / PublishedMedium IEEE Communications Magazine / IEEE Wireless Communications / / Technology radiation / broadband / Wireless Communications / demodulation technology / SIMULATION / image processing / camera technology / /
SocialTag |
Hemispherical Lens Based Imaging Receiver for MIMO Optical Wireless Communications Thomas Q. Wang, Y. Ahmet Sekercioglu and Jean Armstrong Department of Electrical and Computer Systems Engineering Monash University Melbo