DIWINE
Area di ricerca:
Linee di ricerca:
Linee di ricerca:
Ricerca UE FP7
Ruolo DEIB: Partecipante
Data inizio: 01/01/2013
Durata: 36 mesi
Sommario
DIWINE considers wireless communication in a dense relay/node scenario where Wireless Network Coding messages are flooded via dense interacting nodes in the self-contained cloud.
Source and destination air-interfaces are completely cloud network-structure-blind with is own self-organizing and processing capability. The benefit is an energy-efficient, high-throughput and low-latency communication network that is capable of operating in complicated, dense, and randomly defined network topologies and domains.
The applications of the DIWINE paradigm are generic, as it is relevant to complex systems ranging from intelligent transport systems to healthcare and even M2M communication in wireless networks. Specifically, DIWINE concentrates on two low-latency application/demonstration cases: smart metering networks, and industrial monitoring and critical control applications.
Source and destination air-interfaces are completely cloud network-structure-blind with is own self-organizing and processing capability. The benefit is an energy-efficient, high-throughput and low-latency communication network that is capable of operating in complicated, dense, and randomly defined network topologies and domains.
The applications of the DIWINE paradigm are generic, as it is relevant to complex systems ranging from intelligent transport systems to healthcare and even M2M communication in wireless networks. Specifically, DIWINE concentrates on two low-latency application/demonstration cases: smart metering networks, and industrial monitoring and critical control applications.