The University of Edinburgh / Harald Haas Institute / University of Edinburgh / Fi communication system / /
IndustryTerm
energy-efficient illumination / higher level communication protocols / wireless connectivity / commercially-available mobile communication systems / cellular networks / state-of-the art wireless standards / wireless system capacity / dense cellular attocell network / wireless network / wireless-fidelity / wireless systems / potential solution / Wireless VLC Link / macrocellular network / wireless communications / sub-networks / signal processing / Internet-of-Everything / attocell networking solution / wireless data traffic / wireless communication systems / wireless networks / energy / wireless cellular communications / cable Internet / visible light communications / electricity / front-end devices / ubiquitous wireless network access / wireless system / indoor communications / backhaul solutions / energy loading / energy efficient intensity modulation / heterogeneous network / Wireless Transmission Using MIMO-OFDM Visible-Light Communications / 25o/device / wireless networking / electronic equipment / wireless networking solution / heterogeneous networks / gigabit wireless communication / energy efficiency / Wireless Industry / attocell networks / closed-form solution / cellular communication systems / wireless coverage / wireless applications increases / electrical energy consumption / wireless communication / terrestrial mobile broadband applications / complement existing heterogenous RF wireless networks / /
MusicGroup
Frequency / /
NaturalFeature
OWC channel / Such channel / /
Organization
FR RP / Li-Fi R&D Centre / Harald Haas Institute for Digital Communications / University of Edinburgh / International Criminal Court / UK Engineering and Physical Sciences Research Council / /
Person
Dawson / Stefan Videv / Using Rate-Adaptive / Little / PAM TDMA / Stefan / V / / /
Light_fidelity_li_fi_towards_all_optical_networking.dvi