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Active HORIZON European Commission

Efficient Confluent Edge Networks

€3.77M EUR

Funder European Commission
Recipient Organization Chalmers Tekniska Hogskola Ab
Country Sweden
Start Date Jan 01, 2024
End Date Dec 31, 2026
Duration 1,095 days
Number of Grantees 11
Roles Associated Partner; Participant; Coordinator
Data Source European Commission
Grant ID 101139133
Grant Description

The ECO-eNET project will perform foundational research on emerging transmission technologies, to form a new confluent edge network that brings together optical and radio transport to scale to new levels of efficiency and capacity for 6G, by integrating confluent front-/mid-/back-haul (xhaul) with cell-free and distributed multiple-input multiple-output based access networks.

The combination of photonic radio fixed wireless and free space optical transmission is used for fixed wireless connections, enabling the creation of an edge mesh network.

New monitoring and slice-aware control protocols will unify the radio intelligent controllers with the transport software defined networking to efficiently deliver high-capacity flex grid wavelength multiplexed signals over standard single mode fibre and the fixed wireless links.

Radio signals can be flexibly processed at different split phy points throughout the network or remain in analog radio over fibre format end-to-end.

The unique ECO-eNET combination of wired and wireless transport is further exploited for wireless control of the wired network segments, enhanced clock synchronization, and optical space and wavelength switching, groomed over FlexE ethernet.

AI layer controls are added to orchestrate the federation of edge processing and splitting of AI models for optimum efficiency in executing user applications and smart network control functions.

The ECO-eNET project brings together an interdisciplinary team of industry and academic partners to explore the full potential of these important emerging technologies to support the capacity, ultra-high energy efficiency, low latency, and robustness needed in 6G networks.

All Grantees

Polariton Technologies Ag; Mbryonics Limited; The Provost, Fellows, Foundation Scholars & the Other Members of Board, of the College of the Holy & Undivided Trinity of Queen Elizabeth Near Dublin; Institute of Accelerating Systems and Applications; Organismos Tilepikoinonion Tis Ellados Ote Ae; Eidgenoessische Technische Hochschule Zuerich; Accelleran; University of Bristol; Adtran Networks Se; Tallinna Tehnikaülikool; Chalmers Tekniska Hogskola Ab

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