Sustainable and robust AIoT for edge-based Services
SEASIDE is a research initiative targeting the environmental impact of AI and IoT, which has grown rapidly and risks diverging … Read More
SEASIDE is a research initiative targeting the environmental impact of AI and IoT, which has grown rapidly and risks diverging … Read More
As connectivity demands rise, traditional wireless networks face performance limits, driving the development of Extra-Large MIMO (XL-MIMO) and Holographic MIMO. … Read More
DestinE initiative aims to develop a digital model of the Earth with the ultimate objective of monitoring and modelling natural phenomena, hazards, and … Read More
AI and 6G will reshape society and the economy, but they impose new demands on fixed optical access and transport networks. Generative AI drives rising data-center interconnect (DCI) traffic, requiring automated, energyefficient management. 6G, targeting THzband links, will centralize RAN processing in datacenters, pushing highcapacity, lowlatency fronthaul. Networks must adopt quantumsafe security. SHINE reimagines fixed networks for 6G and AI by coupling distributed edge/core datacenters with onehop optical paths from users to compute. By minimizing intermediate packet handling, SHINE targets high capacity, low latency, energy efficiency and security across multifiber/multiband infrastructures. It leverages multicarrier multiplexing, PON, WDM, Band Division Multiplexing (BDM) and Spatial Division Multiplexing (SDM), and integrates quantumsafe protections. Key objectives:
6G networks will be designed to fulfill ubiquitous connectivity, hyper-reliable and low-latency communication, or AI and communication, among other requirements … Read More
The STAN4CRA2 project, under the management of the ETSI, CEN and CENELEC entities, has created the Call for Experts (CfE) … Read More
The WAVESS (Waterbody Assessment and Verification fusing Earth observation and Seabot Surveying project) project focuses on improving the way we map and monitor Mediterranean … Read More
The RASTOOL-DoS project aims to bridge critical gaps in disaster risk reduction and management (DRRM) by developing a prototype for … Read More