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Network architecture / Fiber-optic communications / Broadband / Local loop / Wireless networking / Wireless mesh network / Telecommunication / Automatically switched optical network / Internet access / Electronic engineering / Technology / Electronics


eMobility Technology Platform Expert Working Group EWG-4 “Optical Fibre Technologies and Radio over Fibre Strategic Research for Future Networks”
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Document Date: 2011-02-02 09:54:20

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File Size: 1,57 MB

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Company

Multi Region/Layer Networks / Hybrid Fibre Wireless Systems / Introduction Wireless / in-Home Networks / /

Currency

USD / /

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Facility

Yosef Ben Ezra H.I.T Holon Technology Institute / Hamed Al-Raweshidy Brunel University / West London Sahibzada.mahmud@brunel.ac.uk Bill Headley University / Sahibzada Ali Mahmud Brunel University / B. Lembrikov H.I.T Holon Technology Institute / Tangdiongga Eindhoven Technology University / Moshe Ran H.I.T Holon Technology Institute / /

IndustryTerm

transport technology / wireless connectivity / communication/entertainment applications / transport technologies / fibre technologies / radio services / bandwidth solution / standalone wireless systems / node technologies / wireless network / sub-systems / optical network / wireless solution / Internet video / communication systems / inherent tremendous wireless propagation loss / wireless meshes / insufficient processing speed / wired/wireless networking / Internet delivery / converged access/metro network / last mile wireless networks / trunk networks / legacy services / broadband wireless signals / passive optical networks / backhaul wireless signals / optical technologies / video communications / wireless networks / roads / optical fibre access network / conventional fibre optic networks / wired/wireless networks / optical communication networks / video on-demand services / reconfigurable optical devices / wireless network connection / broadband services / Internet traffic / electricity / photonic technology / fibre-wireless channel / transport networks / low cost solution / carrier frequency increases / access network / optical and radio backhaul networks / gas / wireless technologies / capacity optical networks / electronics / consumer devices / water / access hardware / access networks / mesh routers / 3G mobile services / demanding user driven applications / wireless access / individual devices / optical networks / Wireless Mesh / enable overcoming the inherent tremendous wireless propagation loss / /

OperatingSystem

Holon / /

Organization

Cambridge University / Yosef Ben Ezra H.I.T Holon Technology Institute / Brunel University / B. Lembrikov H.I.T Holon Technology Institute / Surrey W.Headley@surrey.ac.uk E. Tangdiongga Eindhoven Technology University / University of Surrey / West London Sahibzada.mahmud@brunel.ac.uk Bill Headley University / /

Person

Hamed Al-Raweshidy Hamed / Yosef Ben Ezra / Nicola Ciulli Nextworks / Moshe Ran / Enrique Areizaga / Andrea Blanco / Richard Penty / /

Position

field worker / Professor / Chair / /

Technology

HDTV / broadband / SONET / fibre technologies / DWDM / S.Lowe BT openworld stephen.j.lowe@btopenworld.com Moshe Ran H.I.T Holon Technology / fibre optic / SDH / Video on Demand / Optical Fibre Technologies / Quality of Service / mran@hit.ac.il Yosef Ben Ezra H.I.T Holon Technology / transport technologies / broadband access / Ethernet / laser / Transport Plane technologies / lasers / Packet Switching / wireless access / optical fibre / benezra@hit.ac.il B. Lembrikov H.I.T Holon Technology / transport technology / MPLS / wireless technologies / underlying technology / node technologies / 3G / RoF technologies / mesh routers / /

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