Oral Sessions
8:30 - 9:00 Opening Remarks
9:00 - 10:30
Keynote Speakers- Invited talk
Title: Profitable Ubiquitous Rural and Remote IoT/M2M/H2H 5G Communications
• Challenges of sparsely populated rural and remote areas of the emerging economics
Unacceptably high investments are required into deployment of the optic core infrastructure
for ubiquitous wide covering of sparsely populated rural, remote, and difficult for access
(RRD) areas using the recent (4G) and also forthcoming (5G) broadband radio access (RAN)
centralized techniques, characterized by short cells ranges, because their profitability
boundary exceeds a several hundred residents per square kilometer. Furthermore, the
unprecedented requirements and new features of the forthcoming Internet of Things (IoT),
machine-to-machine (M2M) and also many other machine type IT-systems lead to a
breakthrough in designing extremely green flexible and low-cost technologies for future 5G
wireless systems which will be able to reach in real time the performance extremums, tradeoff optimums and fundamental limits.
We show that the distributed multifunctional medium access control (MFMAC) to long-delay
wireless medium is a key technology for rural broadband wireless 5G communications. The
improvement of MAC protocols plays a key rolein ensuring the extremely green PHY and
flexible radio resource & QoS “on the fly” management. Next, the fundamental PHY-MAC
throughput limits and extremums of the energy, power, spectral efficiency invariants criteria
are proved. The invariant criteria are constructed relying on Shannon m-ary digital channels
capacity which riche palette of the technically interpreted PHY-MACs parameters consider.
Therefore, the invariant criteria as very suitable for research and design of an 5G extremely
performance problems are found. The PHY-MACs smart distributed control techniques which
able implements "on-the-fly" the limits close and invariant criterion optimization or trade-off
is proposed. Such PHY-MAC’s smart control techniques represent a key disruptive
technologies meet the 5G network challenges.