TY - CONF
TI - Wireless Environment as a Service Enabled by Reconfigurable Intelligent
Surfaces: The RISE-6G Perspective
AU - Strinati, Emilio Calvanese
AU - Alexandropoulos, George C. and
AU - Sciancalepore, Vincenzo
AU - Di Renzo, Marco
AU - Wymeersch, Henk and
AU - Dinh-Thuy Phan-huy
AU - Crozzoli, Maurizio
AU - D'Errico, Raffaele
AU - De
AU - Carvalho, Elisabeth
AU - Popovski, Petar
AU - Di Lorenzo, Paolo and
AU - Bastianelli, Luca
AU - Belouar, Mathieu
AU - Mascolo, Julien Etienne and
AU - Gradoni, Gabriele
AU - Phang, Sendy
AU - Lerosey, Geoffroy
AU - Denis,
AU - Benoit
PY - 2021
SP - 562-567
PB - IEEE Comput. Soc
T2 - 2021 JOINT EUROPEAN CONFERENCE ON NETWORKS AND COMMUNICATIONS & 6G
SUMMIT (EUCNC/6G SUMMIT)
TODO - 10.1109/EUCNC/6GSUMMIT51104.2021.9482474
TODO - null
TODO - The design of 6th Generation (6G) wireless networks points towards
flexible connect-and-compute technologies capable to support innovative
services and use cases. Targeting the 2030 horizon, 6G networks are
poised to pave the way for sustainable human-centered smart societies
and vertical industries, such that wireless networks will be transformed
into a distributed smart connectivity infrastructure, where new terminal
types are embedded in the daily environment. In this context, the
RISE-6G project aims at investigating innovative solutions that
capitalize on the latest advances in the emerging technology of
Reconfigurable Intelligent Surfaces (RISs), which offers dynamic and
goal-oriented radio wave propagation control, enabling the concept of
the wireless environment as a service. The project will focus on: i) the
realistic modeling of RIS-assisted signal propagation, ii) the
investigation of the fundamental limits of RIS-empowered wireless
communications and sensing, and iii) the design of efficient algorithms
for orchestrating networking RISs, in order to implement intelligent,
sustainable, and dynamically programmable wireless environments enabling
diverse services that go well beyond the SG capabilities. RISE-6G will
offer two unprecedented proof-of-concepts for realizing controlled
wireless environments in near-future use cases.
ER -