Upload
others
View
0
Download
0
Embed Size (px)
Citation preview
Confidential – for 5GIC Members Only Mobile World Congress Presentation – February 2017
5G Beyond the Hype: Value & Building Blocks
‘Enabling the Digital Fabric’
Stuart Revell
External Engagement Advisor
5G Innovation Centre (5GIC)
University of Surrey
Mobile +44 (0) 7836 512787
Email [email protected]
Confidential – for 5GIC Members Only Mobile World Congress Presentation – February 2017
5G INNOVATION CENTRE
The 5G Innovation Centre (5GIC) at the University of Surrey is now the largest UK academic research
centre dedicated to the development of the next generation of mobile and wireless communications.
Bringing together leading academic expertise and key industry partners in a shared vision, the 5GIC
will help to define and develop the 5G infrastructure that will underpin the way we communicate, work
and live our everyday lives in the future.
The 5GIC has been set up to drive the delivery of a mobile communications and wireless connectivity
capable of meeting the needs of tomorrow’s connected society and digital economy
5G Innovation Centre (5GIC) at the University of Surrey
Innovation Centre, the
Largest 5G “Open”
Innovation Centre in the
world
Entire mobile eco-system
represented
Membership profile: 26
Global industry, 41 SMEs,
vertical industries and
regulator
Significant international
connections
Built on strong foundation ,
long history of research into
2G, 3G, 4G, Satellite, IoT
Confidential – for 5GIC Members Only Mobile World Congress Presentation – February 2017
1
2
3
4
5 6
7
8
9
Enhanced mobile broadband
Ultra-reliable and low-latency
communications
Massive machine type
communications
Increased Availability,
Capacity & Coverage £ $ € ¥ DATA
Transport & Logistics
Mobile
Fixed / Mobile
Financial
Services
Health &
Social Care
Retail /
Logistics
Digital Creativity &
Information Services
Manufacturing & Robotics
Public /
Private - Data
Future eco-system, Network of Networks - providing functionality
to address multiple use cases, leveraging common approaches
and infrastructure.
eMBB - Enhanced mobile broadband • 1-10Gbps connections
• Cell DL 20 Gbps / UL 10 Gbps
• Indoor 10 Mbps per M2
• User experience DL 100Mbps / UL 50 Mbps
• Orchestration of fixed / mobile eco-system
• Latency 4ms user plane / 10 to 20 ms control plane
mMTC - Massive machine type communications
• 1,000,000 per KM2
URLLC - Ultra-reliable and low latency communications
• Deterministic quality of service
• Low Latency 1ms user plane / 10 to 20 ms control plane
• Highly secure / resilient
Increased availability, coverage and capacity
• (Perception of) 99.999% availability
• (Perception of) 100% coverage
Mobility modes • Stationary 0 km/h
• Pedestrian 10 km/h
Operating seamlessly across boundaries
• Public / Private
• Technical / Commercial
eMBB
URLLC mMTC
• Vehicular 10 - 120 km/h
• High Speed 120 - 500 km/h
5G design goals / aspirations
Confidential – for 5GIC Members Only Mobile World Congress Presentation – February 2017
Technology required to make it work
• 5G Radio Access Technologies (RAT)• Non 5G Radio evolution and usage (e.g.
WiFi, 3G, 4G)• Co-existence and interference• Spectrum
• Core Network Evolution / Slicing• Leveraging, connecting and evolving all
ICT assets (e.g. Mobile, Fixed, Fibre,Broadcast, Satellite)
• 5G RAT ready, previous G’s and other AirInterfaces
Network of Networks / System of Systems • Operator to Operator• Operator(s) to Vertical(s)
Digital Fabric (Technology) Digital Market Place (Commercial)
5GRADIO
5G FABRIC
5GCORE
Radio Access Technology (RAT) is the underlying connection
technology for a radio based communication network. Mobile
phones support several RATs in one device such as Bluetooth,
WiFi, and 3G, 4G or LTE.
The CORE is the central part of a telecommunications
network that provides various services to customers who are
connected by the Access network.
Network Slicing is a proposal to create ‘slices’ of network that
are optimised for different things e.g. latency or throughput
so that industries with very different priorities can achieve
what is important for them.
The 5G FABRIC is a new concept to connect multiple Networks
and / or Services using common approaches and interfaces
across different networks and boundaries. This will enable a
common eco-system for all developers, users and network
owners / operators (including PUBLIC / PRIVATE).
Confidential – for 5GIC Members Only Mobile World Congress Presentation – February 2017
RADIO ACCESS TECHNOLOGY (RAT) (including licensed and licence-exempt)
5G Design Aspirations <1GHz 1-6GHz >6GHz
1 1-10 Gbps connections.Minimum user experience DL 100Mbps / UL 50 Mbps
Leveraging best available existing air interfaces and evolution to 5G RAT
Developing new technologies and
5G RAT
2 1 ms end-to-end round trip delay (latency) MULTIPLE RADIOS = 5G DIGITAL FABRIC
Spectrum usage and management innovation enabled through trials and test beds. Multiple networks, bands
and/or air interfaces and control and/or user plane
3 Bandwidth per unit area • Cell DL 20 Gbps / UL 10 Gbps• Indoor 10 Mbps per M2
4 Massive machine type communications 1,000,000 per KM2
5 (Perception of) 99.999% availability Low capacity, good for control /
coverage
Medium Capacity, good for control and user plane
High capacity, good for user plane 6 (Perception of) 100% coverage
7 Significant reduction in network energy usage Radical low energy technology evolution at multiple levels for
each area: materials, device, systems and cross network 8 Up to ten year battery life for low power, machine-type devices
5G core requirements mapped to Radio innovation
Confidential – for 5GIC Members Only Mobile World Congress Presentation – February 2017
NETWORK OF NETWORKS
5G FABRIC
5G FABRIC
5G FABRIC 5G SDN/NFV CORE
RATs
RATs
5G FABRIC
RATs
Common
Information Layer
RADIO
ACCESS
Infrastructure
Resource Layers
----- Virtualisation -----
Business Enablement
Layer
----- Enabling APIs -----
Business Application
Layer
End to end
management
and
orchestration
Slices
Slices
Slices
Other
TBD
LTE
2.6
GHz
WiFi
26
GHz
700
MHz
3.5
GHz
----
- R
ad
io A
cce
ss T
ech
nolo
gie
s--
---
Slices
Slices
5G Network Architecture
eMBB URLLC mMTC
Confidential – for 5GIC Members Only Mobile World Congress Presentation – February 2017
Sectors: verticals and horizontals, public and private
Production,
Manu-
facturing &
Robotics
Mobile
Fixed /
Mobile
Transport &
Logistics
Financial
Services
Health &
Social Care
Retail /
Logistics
Digital
Creativity &
Information
Services
5G Smart Living
Rural, sub-urban, urban
Public &
Private Portal
Cyber - Security by design
Standards
1. Enhanced mobile broadband
2. Network availability, capacity & coverage
3. Massive machine type communications
4. Ultra-reliable and low latency communications
5G RADIO
5G FABRIC
5G CORE
£ $ € ¥ M2M THINGS
DATA
Government
– national
and regional
Confidential – for 5GIC Members Only Mobile World Congress Presentation – February 2017
5G on the road
The 5G Innovation Centre
at the University of Surrey
will showcase its innovative
research which presents a
5G vision for the
automotive industry
including a proposition to
create a sliced architecture
which has the potential to
change the car journey
experience and value
proposition as we know it.
This is based on five key
network slices:
AUTONOMY & SAFETY:
providing new ways of making the process of driving safer, easier and
more comfortable
INFOTAINMENT:
the use of real time information, entertainment and content to deliver an
enhanced driver experience
TELEMATICS:
systems to provide new services and car connectivity for increased
driver efficiency and accessible information
VEHICLE SENSING:
using sensors to generate information for driver use and for wider
distribution, providing community benefits to other road users and
organisations
CONNECTING SERVICES:
exploring exciting new architectures, creating instant user experience
working across multiple physical and virtual boundaries
Confidential – for 5GIC Members Only Mobile World Congress Presentation – February 2017
Autonomy and safety
Vehicle to Vehicle V2V Vehicle to Infrastructure V2I
50
• Mobile to consumers on the move
• Secure communications to professionals and emergency services
• Machine to machine for safety, critical services and autonomy (e.g. Vehicle to Vehicle and Vehicle to Infrastructure, Train to Trackside)
• Critical infrastructure monitoring and preventive maintenance
• Enhanced routing and load balancing – increasing rail and road utilisation and efficiency.
Common infrastructure and eco-system, delivering multiple use cases:
RSU
Confidential – for 5GIC Members Only Mobile World Congress Presentation – February 2017
NETWORK OF NETWORKS
CAR MANUFACTURER
SMART CITY
5G FABRIC MOBILE OPERATOR
5G SDN/NFV CORE
RATs
RATs
ROADSIDE OPERATOR
RATs
Common
Information Layer
RADIO
ACCESS
Infrastructure
Resource Layers
----- Virtualisation -----
Business Enablement
Layer
----- Enabling APIs -----
Business Application
Layer
End to end
management
and
orchestration
Infotainment
Telematics
Autonomy & Safety
Other
TBD
LTE
2.6
GHz
WiFi
26
GHz
700
MHz
3.5
GHz
----
- R
ad
io A
cce
ss T
ech
nolo
gie
s--
---
Vehicle Sensing
Connected Services
5G Automotive Example
eMBB URLLC mMTC
Confidential – for 5GIC Members Only Mobile World Congress Presentation – February 2017
Digital Market Place, enabled by common 5G eco-system
Business & Users
Network 1 Network 2 Network 3 Network……
Market Place
5G Fabric
Confidential – for 5GIC Members Only Mobile World Congress Presentation – February 2017
Standards – Traditional + Verticals
Technology Building Blocks
Systems, integration and interoperability
Network of networks and Digital Fabric
Service and Apps, Socio-economic
challenges
Technology PUSH – Trials and Test Beds
Vertical engagement
Technology PULL – Trials and Test Beds
Vertical use cases
Health & Social Care Service and Apps, Socio-economic
challenges
Technology PULL – Trials and Test Beds
Modern Built Environment
Energy & Utilities
Service and Apps, Socio-economic
challenges
Technology PULL – Trials and Test Beds
Transport Service and Apps, Socio-economic
challenges
Technology PULL –
Trials and Test Beds
5G DIGITAL FABRIC
End to End Network Architecture – defining and implementing ‘Network of Networks’
Building consensus and scale
2017/8
ICT
Standards
2017 to 20xx
Verticals
Standards