We are witnessing an unprecedented worldwide growth of mobile data traffic that is expected to continue at an annual rate of 45% over the next years, reaching 30.5 exabytes per month by 2020. With the arrival of 5G, mobile connectivity goes from something we experience mainly through personal devices to being built into the fabric of our society, creating an integrated infrastructure that will connect buildings, transport, and utilities. While the demand for wireless capacity will continue to grow, the emergence of the Internet of Everything (IoE) system, connecting millions of people and billions of machines, is yielding a radical paradigm shift from the rate-centric enhanced mobile broadband (eMBB) services of the conventional networks towards ultra-reliable, low latency communications (URLLC). The objective of the TACTILENet project is to bring together the complementary expertise of European and third-country partners in order to lay the foundations for addressing basic issues in several facets of 5G and beyond networking.
Our conclusions of the action is summarized as below. We developed and analysed:
1. Edge-caching techniques, which bring the content closer to the users in order to improve their Quality of Experience.
2. Dynamic control techniques for networks with wireless energy transfer as well as energy-harvesting devices to provide perpetual and reliable connectivity for IoE.
3. Cross-layer techniques such as caching and massive-MIMO beamforming suitable for high bandwidth mobile communications.
4. System architectures involving airborne base stations and techniques for multiple-access to enable massive but short communications among machines.
Additionally, we have participated in standardisation bodies such as ITU, IEEE and Networld2020. We have partially completed a course on 5G networks.