Virtualization's Role in Realizing the 5G Vision 2016 TM Forum 1 Giovanni Romano, Coordinator for Radio Standards TIM
BroadBand access everywhere 5G will cover new use cases and requirements Seamless experience of connectivity anytime, anywhere, on everywhere any access technology Up to 1 Gbps +50Mbps Video services, possibly empowered by 3D and Augmented Reality BB access in dense areas High user mobility Speed up to 500Km/h High user mobility on trains, while still enjoying HD movie or work in a videoconference 2016 TM Forum 2
5G will cover new use cases and requirements Massive IoT Connectionnec n Ultra low power, integrated sensors, density: e. g. wearable to measure various heart rate or blood pressure, 200.000 /km2 < 1ms Real-time sensing, data latency delivery, big data intelligence and real-time actuation to enable Tactile Internet Extreme realtime communications Emergency & Safety Resilience ien & High Availabilitya Public Protection and Disaster Relief e.g. especially for communication among authorities and citizens 2016 TM Forum 3
5G will cover new use cases and requirements Ultra-reliable communications Monitoring patients & fast medical treatment < 1ms latency Vehicles realize Ultra critical High situations fast, react accordingly and alert other cars Availability Broadcast like services One-to-Many ny Information distributions in areas such as arenas, event transmission locations, city centers, city metros capabilityab 2016 TM Forum 4
Efficiency as a design requirement Energy Efficiency 5G system design needs to dramatically Cost efficiency improve network energy efficiency Energy Efficiency is one of ITU-R s key capability for 5G! Minimizing the Total Cost of Ownership (TCO) of the network infrastructure for the operators, and the cost of terminals Spectrum Efficiency Spectrum is a scarce utility, the industry should strive to improve it! 2016 TM Forum 5
5G: virtualization A 5G network architecture with native support for NFV enables fast creation of dedicated network instances optimized for specific customers, service scenarios and/or terminal types (network slices), potentially improving user experience and infrastructure resources Network slices could be created by the operator combining elementary functions available in a catalogue. Composition of functions to create slices can be managed by the operator though the NFV Orchestration Platform Integration of multiple RATs in the network slices, including WiFi Examples of slices: Smartphone: fully-fledged functions distributed across the network Automotive: security, reliability, latency at the edge. Cloud node + open API for vertical applications. Sensors: avoid mobility, basic Control plane functions (e.g. authentication) 2016 TM Forum 6
5G Progress in 3GPP 5G RAT features will be phased as it will be not possible to standardize all in time for Rel-15 completion and early deployments Release 15 will aim at a first phase of expected deployments in 2020 Release 16 will target the ITU IMT-2020 submission 5G Requirements study (SMARTER) will be completed by June 2016 (Rel 14), for: Massive IoT Critical Communication (e.g. industry automation, public safety) Enhanced mobile BB (e.g. higher data rates, higher mobility, ) Network Operation (e.g. network slicing, efficient content delivery, ) 2016 TM Forum 7
Radio requirements: Architecture Support tight interworking between the new RAT and LTE Different options and flexibility for splitting the RAN architecture shall be allowed RAN architecture shall allow for deployment flexibility (e.g. to enable context aware service delivery, low latency services) RAN architecture shall allow for C-plane/U-plane separation RAN architecture shall allow deployments using Network Function Virtualization RAN architecture shall allow for the operation of Network Slicing The design of the RAN architecture shall allow the deployment of new services rapidly and efficiently RAN-CN interfaces and RAN internal interfaces (both between new RAT logical nodes/functions and between new RAT and LTE logical nodes/functions) shall be open for multi-vendor interoperability 2016 TM Forum 8
Feasibility Study on new Radio Access Technology Target a single technical framework addressing all usage scenarios, requirements and deployment scenarios (June 2017) Radio Access Network architecture, interface protocols and procedures Study the feasibility of different options of splitting the architecture into a central unit and a distributed unit, with potential interface in between Study and outline the RAN-CN interface and functional split Study and identify specification impacts of enabling the realization of Network Slicing 2016 TM Forum 9
5G vision Extremely flexible, highly programmable e2e system, application, customer, time and location aware Serving at best high diversity types of communications with different performance attributes Natively leveraging NFV technologies: Support on demand composition of network functions and capabilities Enforce required capability/capacity where and when needed Profitably accommodating low- and high-arpu traffic and sustainability Being future-proof and ready to serve even not yet identified use case and radio technologies 2016 TM Forum 10