Monday, January 22, 2018

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DIWINE

 

DIWINE

 

DIWINE considers wireless communication in a dense relay/node scenario where WNC (Wireless Network Coding) messages are flooded via dense massively air-interacting nodes in the self-contained cloud while the PHY air-interface between the terminals (sources/destinations) and the cloud is simple and uniform.

A complex infrastructure cloud creates an equivalent air-interface to the terminal, which is as simple as possible. Source and destination air-interfaces are completely cloud network-structure-blind. The cloud has its own self-contained organising and processing capability. This concept facilitates energy-efficient, high-throughput and low-latency network communication performed directly at the PHY layer, which is capable of operating in complicated, dense, randomly defined network topologies and domains.

The applications of the DIWINE paradigm are generic, being relevant to complex systems ranging from intelligent transport systems to healthcare and even machine-type communication in wireless networks. However, in order to exhibit practical, highly focused and high impact results, DIWINE concentrates on two core application/demonstration cases: i) smart metering networks and ii) critical industrial monitoring and control applications. To this end, DIWINE algorithms and theoretical technology will be integrated into two industrial proof-of-concept demonstration platforms targeting the aforementioned applications. Both of these applications require low-latency, dense networking solutions and are sure to be integral to future European policy and society as evidenced by recent European Commission initiatives such as EUROPE 2020  

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