5G mm Wave Networks Leveraging Enhanced Fiber-Wireless Convergence for High-Density Environments: The 5G-PHOS Approach.
Sotirios PapaioannouGeorge KalfasChristos VagionasPavlos ManiotisAmalia N. MiliouNikos PlerosL. Anet NetoParaskevas ChanclorM. Raj-AliParaskevas BakopoulosChristophe CaillaudHelene DebregeasM. B. SirbuY. EichhammerEleni TheodoropoulouGeorge L. LyberopoulosElli KartsakliJohn S. VardakasGuy TorfsX. YinKostas TsagkarisPanagiotis DemestichasGiannis GiannoulisHercules AvramopoulosGeorge LentarisEmmanouel A. VarvarigosIdelfonso Tafur MonroyE. DayanYigal LeibaI. DimogiannisA. KontogiannisRoberto MagriAntonio TartagliaC. G. H. RoeloffzenR. M. OldenbeuvingPublished in: BMSB (2018)
Keyphrases
- high density
- high bandwidth
- fiber optic
- low density
- cellular networks
- high power
- data center
- access network
- wireless networks
- access points
- close proximity
- wireless communication
- network connectivity
- magnetic recording
- thin film
- wireless technologies
- rms error
- mobile terminals
- mobile networks
- application specific
- network infrastructure
- mobile users
- convergence rate
- network structure
- high speed
- field effect transistors
- sensor networks
- mobile devices