Defining Future 5G Networks - All Slides

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Defining Future 5G Networks:

SME Workshop Dr Hamid Falaki Technical Architect – Communications

Digital Catapult

Opening & Welcome

5G SME Workshop 18th May 2015

2

5G SME Workshop

• Welcome to Digital Catapult

• What is today about

• Outcome of today’s workshop


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Questions for the Workshop

W h a t a r e t h e t o p t e n r e q u i r e m e n t s f o r

F u t u r e 5 G N e t w o r k s , g i v i n g a d v a n t a g e t o

U K S M E c o m m u n i t y ?


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SME Workshop Chair: Paul Ceely, Head of Network Strategy at EE Ltd

Session 1 – Software and Services


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SME Workshop Andy Sutton Principal Network Architect

Network Strategy, EE Ltd


Andy Sutton Principal Network Architect Network Strategy 18th May 2015

Digital Catapult: SME workshop - Defining future 5G networks

Context - we’ve come a long way in a short time

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•The World’s first GPRS network was launched 15 years ago in the UK

•At the time; GSM High Speed Circuit Switched Data (HSCSD) offered the UK’s fastest cellular data service at 28.8kbps

•3G continues to enhance data rates which have evolved from 384kbps to some 10’s of Mbps during the last decade

•4G is the state of the art; a mobile broadband network by design…

5G offers exciting opportunities however 4G is here now

3

• SME opportunities - Devices, Networks and Apps / Services

• 5G will enhance wide area 4G networks and work seamlessly with evolved WiFi

• New and innovative devices - think beyond the smartphone…

• Constantly evolving network infrastructure - antennas systems, components and sub-systems, software…

• Reliable connection with high speed uplink as well as downlink with low latency…

Sharing

SON

Security… Massive MIMO

Full duplex

NFV SDN

Ultra-high definition video

5G Research - technologies for connecting everything!

5G Network (with 4G and evolved WiFi)

Ultra high capacity

On demand services

Ultra low-latency

Ultra reliable

Always sufficient rate (speed)

Wide area coverage

In-building coverage

Stadiums and hot-spots

New spectrum

Ultra dense networks

New waveforms

Separation of control and user plane

Energy efficient

Application aware

Seamless mobility

Device to device

Internet of Things

4

5

In 5G we are defining technologies for when

untethered connectivity is essential for everything

that we do, always providing a sufficient data rate, giving the users the perception of an infinite capacity environment,

stretching the bounds of mobile and communication

far beyond where it is today.

Capabilities:

1. Capacity

2. Latency

3. Reliability

4. Resilience

5. Availability

6. Speed

7. Security

8. Energy usage

Markets:

1. Smartphones

2. Tablets/MBB

3. Professional

4. Emergency

5. Safety

6. Vehicles

7. Machine

8. Sensor / Things

5G Vision, capabilities and markets

The connectivity and performance will be there, let’s develop the services to use it…

Question 1

What new or enhanced applications might 5G allow?

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THANK YOU

[email protected]

6

Connected Media

Applications Professor Nigel Linge University of Salford, Manchester


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The potential of Connected Media


5G is an enabler that simply improves the way in which we connect with

our digital media.

Business benefit will come from the new products and services that are

developed to exploit 5G.

Apps Bandwidth Internet of Things Big Data

8

Innovation through engagement


A Centre for Creative and Digital Industries BBC, ITV, Dock 10, SIS, University of Salford

The Landing

and . . . .

200+ SMEs specialising in digital media It is these SMEs who are now driving forward the next

stages in the development of MediaCityUK

SMEs (agility, speciality,

rapidity, flexibility)

Users,

Stakeholders

Application domain needs,

opportunities and evaluation

Researchers

Technology transfer and

specialist skills/knowledge

Public and

Private sector

partners

Technical support, use

cases, testbeds

External

funding,

grants

Enabling development

New products and

services

commercialisation

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Applications & Services Session

• What new or enhanced applications might 5G allow?

• What test bed facilities will be needed to test and enhance these applications?

• When is the right time to start engaging with the 5G community?

• What will give UK developers an advantage over their competitors?

• What capability do applications seek from the upcoming technologies to be deployed

in 5G networks?

H o w c a n S M E s , u s e r c o m m u n i t i e s ,

r e s e a r c h e r s a n d s t a k e h o l d e r s w o r k

t o g e t h e r m o r e e f f e c t i v e l y t o e x p l o i t t h e

p o t e n t i a l o f 5 G a n d C o n n e c t e d M e d i a ?

Technology Enablers Session

• Which tech. can already meet the capability we have identified & what is the gap?

• What new technologies might 5G require?

• What test bed facilities will be needed to test and enhance these technologies?


• What will give UK technology companies an advantage over their competitors?

• What are the enabling technologies expectations from the applications promoting their use case?

• Given new tech. we are looking at currently; what apps can we enable or create in going forward?

Business Enablers / for both Sessions

• Is it too early for the SME in UK to consider their solution around 5G networks

• What should be the go to market strategy for an SME

• When will your technical solution mature enough to launch the solution

• Some may consider market entry before the 5G network launch

• Some solutions may require the 5G networks to launch before their market entry

10

NetOS

A Network Operating System

For

Converged City Infrastructure

Reza Nejabati (VP, Advanced Technology)

Dimitra Simeonidou (CTO)

Zeetta Networks

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Bristol is Open: A Frist Heterogeneous and Open Programmable Smart City


Optical Network

144-fiber core network

connecting 4 nodes

Wireless Network

1Gbps access network

Wi-Fi, LTE, LTE-A,

60GHz, Massive MIMO

IoT Network

54 Fiber-connected

lamppost

Clusters of 1500 sensors

Cloud

Infrastructure

HPC and commodity

compute and storage

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INFRASTRUCTURE

Telecoms

Sensors, M2M, IoT

Computers

Data centres & Cloud

Network Operating System (NetOS™)

Virtual

Network A

Virtual

Network B

Manage a diverse “Network-of-Networks”

IT, Telecoms, Wireless, Sensors, Actuators, IoT, etc.

Multi-Technology Support

Software Defined Networking

Abstractions of the underlying hardware Logically centralized control

Eliminate Vendor Lock-ins – white box solutions?

Network Virtualization

“Slice” network to share resources among many users Efficient utilization & monetization

Multi-Tenant Solution

13

Camera Keypad Wi-Fi Display …

Phone Contacts Browser Facebook …

Android Operating System

Mobile Phone Infrastructure Network

Hardware

Camera driver

Keypad driver

Wi-Fi driver

Display driver

… Device

Drivers

Operating

System

Applications

IoT Device

Network Device

Cloud Device

…

Agent 1 Agent 2 Agent N …

App 1 App 2 App N …

Network Operating System

NetOS®

Northbound

API

Southbound

API

14

Ne

two

rk O

pera

tin

g S

ys

tem

Ne

tOS

®

CCTV public

buildings weather sensors . . .

parking traffic gates smart grid

public transport

city resources

home meters

smartphones cars

citizen resources

sensors Wireless

HPC Optical

aux resources

Gateway /Driver

Gateway

/Driver Gateway /Driver

Gateway /Driver

Gateway /Driver

Gateway /Driver

… …

City Network(s) SDN Controller

Data Collection Engine sync async

Information Models OpenStack

OpenStack

Platform Virtualization/Slicing

OpenStack, etc.

Data Pre-Processing Services service 1 … service N

Data Presentation Layer

Service Development Kit Enhanced SDK

end-user services

App 1 App 2 App 3 App N …

core services Experimental services

NetOS Mgmt Platforms management Exp 1

15


ComputeControlNetworkDevices

Control

Network Slicing Compute Slicing Multi-tenant & Usage Policy

CityTest-bedasservice

City HyperVisor

City Experimentation as a Service (CEaaS)

City Virtualization

City Slices

NetTrafficStats UserBehaviorMobilityPa erns

Userdefine dKnowledge

Knowledge Building

Virtual City Control Knowledge

CityTest-bedasserviceVirtual City Control Knowledge

AP

I

AP

I

City

OS

SDN Enabled

Virtualization

SDN Enabled

Virtual Infrastructure

Control

Knowledge

SDN Enabled

Infrastructure

Technology

Agnostic

AssetsControl

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in 5G networks?

C a n S D N e n a b l e c o n v e r g e n c e o f 5 G

t e c h n o l o g i e s ?

A r e o p t i c a l a n d w i r e l e s s n e t w o r k

p l a t f o r m s r e a d y f o r S D N

C a n 5 G n e t w o r k s b e n e f i t f r o m a n A n d r o i d

a l i k e N e t w o r k O p e r a t i n g s y s t e m ?















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SDN in Wireless networks &

Future Research Toktam Mahmoodi

King’s College London


SDN&NFV in 5G

Toktam Mahmoodi King’s College London

Defining Future 5G Networks 18 May 2015

Axes of innovations in 5G services

Convergence

Autonomy Predictability

Over the top services

Cloud-based services

Open interfaces

…

More capable devices

Rich set of applications

Anything as a Service

Multi-domain / Multi-tenancy

Softwarisation, Virtualisation, Cloudification

SDN & NFV as a means of enabling

Programmability, agility, low cost upgrade.

SDN brings

Abstraction of Control

Replacement of protocols with principles

Isolating different concerns

Questions ahead

Building abstraction for the dynamic natures of

mobile/wireless.

For various reasons including simplicity, privacy, etc.

Possibility of open app-type platform

Role of Devices

Role of supporting technologies

18

The Ecology of 5G Technology

Dr. Ben Shenoy Centre for the Digital Economy & Innovation Gateway

Surrey Business School

19

Bridging the chasm between invention & industrialization


Invention Industrialization

Technological

experimentation

‘Enterprise model’

experimentation

20

An illustration of ‘ecology’


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Considering the potential ecological implications of 5G…








in 5G networks?

W h a t t r u l y n o v e l c a t e g o r i e s o f

s e r v i c e / a p p l i c a t i o n m i g h t 5 G o p e n u p ?















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SME Workshop Chair: Paul Ceely, Head of Network Strategy at EE Ltd

Session 1 – Software and Services


Workshop

23


SME Workshop Chair: Howard Benn Head of Standards and Industrial Affairs, Samsung Electronics Research Institute Session 2 – Technology and Network Enablers


24

Architecture-as-a-Service An Entry Point for SMEs? Dirk Trossen, Principal Engineer InterDigital Europe

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InterDigital Europe, Ltd. – Open for business July 2013


Central mission is to drive technology collaboration & partnership initiatives across the European stage

Happy to call London and “Tech City” our home affording us easy access to anywhere in Europe

We play in Horizon 2020, 5GPPP, Innovate UK and are always looking to create new projects and alliances

Already seeing some good results with four wins in EU competition (e.g. H2020) so far

Also driving a integrated transport initiative, “oneTRANSPORT” in the area of the IoT

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Services: the evolution to the smarter, living network Moving from 4G to 5G will deliver next level of experience and enabling business models


Wave 1 (Voice) Wave 2 (Visual) 5G:The Living Network

New services, new

business models

Glory days

of GSM

Integrated

telephony

applications

IMS

promises

Walled

garden

worries!

Ride of the

OTT

A new

status quo

Rise of the

mobile internet

The video

experience

The living

experience

27

5G Drivers, Requirements, and Its Many Stakeholders Gathering International Consensus


4G purposed mainly for VIDEO… Pervasive video ++ ● IoE ● TACTILE internet ● mission critical IMT-2020

LTE-A

LTE

50Mbps

150Mbps

500Mbps

1Gbps

16.32 30

upto20MHz upto100MHz

~10ms ~5ms

Peak Data

Rate:

Spectral

Efficiency:

Carrier

Bandwidth:

Latency

(RTT):

<1millisecond

latency

(when needed)

10-50Gbps peak

data rates

(headline data

rate)

90% Energy

reduction per

service

100-500MHz

Carrier Bandwidth

Higher Density:

Millions of

connections per

km2

Higher Traffic

Volume:

1-10 Tbps per km2

Rapid Service

Creation

(from days to

minutes)

Sustainable Total

Cost of Owner for

all players

User Definable

Security & Privacy

Multi-tenancy

Municipalities

Vendors

Asset owners Operators

Solution providers

Municipalities

Vendors

Asset owners

Operators

Solution providers

Regulators

Users

SMEs

Corporations

App developer

5G: One

Ring to

Rule

Them All?

28

Paradigm Shift at the Control Level: Controlling Assets You Don’t Own


Service provider PropertiX provides a building management service to

tenant Lexxor, utilizing advanced monitoring and actuator infrastructure

embedded into the physical membrane of the building. With this, the

control centre of PropertiX can determine if the overall state of the

building is safe and sound as well as, in case of disturbances,

determine root causes and audit malfunctioning.

At some point, an emergency occurs when a construction vehicle,

operating outside the building, crashes into a large part of the building.

The smart environment of the building senses the relevant information

and signals an emergency alert to the control centre.

As a reaction, the control centre reconfigures the settings for data

collection and aggregation in order to retrieve auditable and

comprehensive status information from relevant building areas.

Furthermore, the breakage of a physical part of the building triggers an

emergency procedure. For this, the control centre provides access to

the building infrastructure towards the emergency services, helping in

assessing the structural damage and optimizing the access of rescue

workers.

Key Aspects

Rapid change of

constraints

• From data-at-rest to data-in-

motion within milliseconds

Need for integrating

other infrastructures

• Controlling the previously

unknown

A single provider

CANNOT own all

possibly required

infrastructure!

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It Looks Like IP, Smells Like IP, but Runs Better! A Case Study for Innovative SMEs and small Corporations to Enter


Access

Core

Premises

Data

centre

Bandwidth costs

HTTP unicast proliferation

# of users

True multicast support

ICN-

based

Core

SDN

controller

POINT

SW

OF

Add deep caching

An innovative technology solution for competitive 5G operator networks

• Targets single operator upgrades only • Build on open SDN APIs to offer an Architecture-

as-a-Service

Funded under H2020 POINT grant #643990

Our solution will drive

down bandwidth

costs

30



W h a t k e y c o m p o n e n t s n e e d t o b e o p e n e d

( a n d h o w ) i n o r d e r t o e n a b l e S M E - d r i v e n

i n n o v a t i o n i n 5 G ? I s O p e n F l o w & N F V e n o u g h ?

D o w n t o t h e h a r d w a r e ?

D o w n t o t h e w i r e / f r e q u e n c y ?

31

Technology enablers for 5G

networks

Professor William Webb

CEO, Webb Search Ltd. President, IET

32

Key technologies

IoT – long battery life and low cost solutions Low latency network design – but how to do it? SDN / NFV – can it be robust enough? Separation of control planes and data mmWave solutions – huge challenges in antenna design and beam steering New 5G modulation and coding schemes Optical communications? Better backhaul solutions New spectrum management and sharing approaches


33

While improving in many areas

Better batteries

Faster processors – especially if data rates of >1Gbits/s delivered

Enhanced processor power in networks to handle CoMP – is quantum computing needed?

Lower cost base stations


34









in 5G networks?

W h i c h t e c h . c a n a l r e a d y m e e t t h e

c a p a b i l i t y w e h a v e i d e n t i f i e d & w h a t i s

t h e g a p ?

W h a t n e w t e c h n o l o g i e s m i g h t 5 G

r e q u i r e ?















35

5GIC Test-bed

Network capability for testing

Gerry Foster – 5G Systems Architect (& Senior Project Manager for Innovation Gateway)

36

5GIC Testbed Aims

1) Demonstrate Ultra-Dense Reference LTE-A capability - Readily available 150-300Mbit/s download capability - Inter-Site Distance 10m to 200m - Benchmark typical loaded and unloaded performance 2) Provide a network segment ready for 5G testing - 128branch Network MIMO (cluster of cells/ access points) - Advanced RAN techniques: Waveforms, Modulation and C-RAN architecture, joint processing - Demonstrate N x Gbit/s cell capability, typical 1Gbit/s loaded capability and 1ms RAN latency

3) Provide the ability to test new Network Architecture and Protocol Aspects - Evolvable Soft-Core - Demonstrable IP-Suite protocol enhancements - Demonstrate new applications 4) Provide an IoT testbed - Desk Sensor Cluster (pod) connected to 5G test-bed (100+ pods, 100’s of sensors in 5GIC building) - Connected car units around campus - Head-End server based system


Baseband Units

5GIC Ultra-Dense Campus Testbed

EPC

Campus Outdoor units 5GIC Comms Room

Fibre Duct Aggregation Pt

Cluster Umbrella cell

Small-cell

Fibre

VF Test Core Nwk

Soft-EPC 5GIC Building, Indoor units

EMS

x6, LTE FDD Femto Radios

x6, LTE TDD C-RAN Radios

x6, 802.11ac Access Points

RF Phase: 2016+

NxClusters replaced with 5G TRX Equipment

(Massive Nwk MIMO)

IoT

150 wired IoT pods

20 Mobile connected Hubs

C-RAN Remote Radio Units

Operations & Maintenance

Operations & Maintenance

5GIC Core Nwk

Radio Equipment Summary

eBBU530

Baseband Unit

Regenerates Data Signals

In 5GIC Communications Room

RRU(a) RRU(c) RRU(b)

RRUs

A(c) A(a) A(b)

RRU(a)

RRUs

A(a)

RRU(a)

RRUs

A(a)

outdoor

MACRO

outdoor

PICO

outdoor

NwkMIMO

PICO

A(b) A(a)

indoor

PICO

A(b)

pRRU

Indoor Ceiling

“Lampsite

System” Ceiling mount

rHub

Indoor riser

5GIC Communications Room

BBU BBU

BBU

2 3 1

RRU(b)

LTE-A Testbed Design

Topology Design

44 cells total

3 x Mobility Clusters 1x 3-sector macrocell/ cluster (~300)

12x picocells/ cluster (10-100m)

Service Design

Supports 64QAM (80%))

Supports 16QAM (100%) ~25/15m)

RSRP - 118dBm @ cell edge

RSRQ – Cell Centre <30% range, -10dB

RSRQ – Cell Centre <30% range, -13dB

5G Nwk. Meta-Data based Test Svr. System (++ evolved from LTE)

Local Breakout

Blade 4

VM vSphere

(Orchestrator)

CentOS

(guest OS)

Vmware ESXi

(thin host OS)

S/W Stack

VM cluster 01

OpenStack/

OpenDaylight/

OpenFlow

Blade 5

Blade 5

Blade 1

Blade 2

Blade 3

UoS S/W

(MDS, CC, CM)

VM vSphere

(Orchestrator)

CentOS

(guest OS)

Vmware ESXi

(thin host OS)

S/W Stack

Qourtus EPC

VM cluster 02

Test Opportunities LTE-A

a: TDD, 2.6GHz, B28 outdoor

b: FDD, 800MHz, B20 indoor

c: TDD, 2.6GHz, B28 indoor

5GIC LTE-A/5G

RAN

HDMI1.4 MHL3.0

B38, Cat4

50/150Mbit/s UL/DL

USB

Wi-Fi

802.11ac

1/10GbEI/F

5G Nodes

(running in parallel with LTE CORE)

Signalling

Development interface

User plane control dev. I/F

ETE Video testing

MTM Video

Testing

4K/HD

camera(02)

Pooled

5G Test RX

(01) (02)

5G

Test Tx

e: 5GHz,

128 branch MIMO/ Cluster

(Massive-Nwk-MIMO)

Adaptor

Test Intranet Web Svr

Test Intranet Content Svr

Internet connection

3 Test

User Apps

3 Test Content

Test Nwk

Fn’s & Apps 2

Test Advanced

RAN techniques 1

New IoT Testbed

ICS IoT test-bed for 5GIC in-building system

• Interfaces: BLE and Wi-Fi at edge

• Concentration: LTE/ 5G Goals

• Research Goals:

• Test-bed for IoT

• System design with interconnection to 5G/LTE

• Platforms: Arduino, integrated with Arm processor

• Sensors:

• 1 per desks island with energy meter (or single office) (100+ units)

• 1 per desks island (or single office) with temp, light, mic, BLE activation for localization

• BLE location increases location and time accuracy a

• Integrated with ARM processor to develop integrated IoT protocols

Roadside system to include several Roadside communications units to 5GIC building

Node concept – IoT Testbed – ‘Desk Egg’

Node designed to be

pleasant to see and functional

Functionality:

Quality of the working environment (basic)

Data and other use cases possible

Actuation for 5G priority traffic

Packed with sensors:

Range and proximity

Noise

Air quality

Actuation, LED can provide different hints (SoftActuation)

BLE for mobile phone control and localization

Deployment:

(at least) One per cluster of desk, Room

Testbed status

Indoor System

• 5GIC Equipment Room being fitted-out for the indoor system • The LTE-A FDD Femto-cells and Wi-Fi Access Points are being installed in the office area this

month

Outdoor System

• Outdoor Fibre aggregation connections points prepared • Equipment Room ready for LTE-A Base-Band units (received this week) • RF planning complete, Civil locations being built

Network Development

• ICS Software engineers building app. development and Context Aware computing framework for academics & SMEs

• ICS Radio staff are bench-validating new radio techniques using emulation technology and an experimental dev platform (planned to migrate outdoors Q1-2018)

Timeline

• Full LTE-A indoor an outdoor system Q3-2015 • Network test-bed framework ready by the end of 2015 • IoT system fitted in 5GIC building by end of 2015 • 5G RAN upgrades through 2016-2018

45









in 5G networks?

Q 1 ) W h a t a r e t h e e x i s t i n g t e c h n o l o g i e s t h a t w e

w a n t t o s h o w h o w 5 G i m p r o v e s

Q 2 ) W h a t k i n d o f t h i n g s d o y o u t h i n k w e c a n

e n a b l e w i t h 5 G ( t h a t w e c o u l d n o t d o b e f o r e )

Q 3 ) … w h a t i s f i r s t t o d e m o a n d w i t h w h o !















46

5G IC SME Engagement

Programme Prof Stephen Temple CBE FREng CEng FIET Visiting Professor University of Surrey

47

5G IC approach to SME Engagement


Why help SME’s?

How can a long term research centre be relevant to the needs of an SME?

Our reason for opening up two classes of SME members:

• SME (Technology)

• SME (Applications)

We are now open for “pioneer” SME (Technology) members to join

but are on hold for SME (Applications) until 5G Test Bed is fully

operationalised

48

We will work with our new pioneer SME (Technology) members to

develop our SME engagement programme


Right to use membership of 5G IC on company PR

Access to 5G IC Technical Conferences organised for all members

Attendance at 5G IC sponsored events to show-case their company technologies

(to which some important global companies will also be invited)

Access to the Test Bed involving technical integration at discounted prices

Access to other test facilities and expensive items of measurement kit at

discounted prices (subject to availability including weekends).

Negotiated (or competitive) access to MSc and PhD resource for appropriate

projects at the discretion of the 5G IC.

Access to an exclusive discussion groups mediated by a 5G expert.

Access to the Innovation Gateway run by the Business School (to research

innovative new business models)

The vision can’t be delivered all at once so we need to set priorities from:

But we also want to create a spirit to do that little bit more than is printed on the tin!

49









in 5G networks?

W h a t a r e t h e p r i o r i t i e s f o r d e v e l o p i n g

t h e 5 G I C S M E ( t e c h n o l o g y ) m e m b e r s h i p

b e n e f i t s ?















50

City Test Bed Facility –

(Bristol Is Open)

Paul Wilson

Managing Director, Bristol Is Open


Open Programmable City Digital Catapult Paul Wilson Managing Director @bristolisopen

• The world’s first open programmable city - Why?

• How? – ‘City Experimentation as a Service’ - Mass Co-Creation

• Using an Open Software Defined Network, IoT, Big Data

• Who & When to engage

Agenda

Rapid Growth In World Population

7bn people in 2012

9bn people by 2040

Most of this Growth will be in Cities

Most people live in cities

Congestion Bristol is 3rd most congested city in UK

Population - Bristol has fastest growth of under 4 children in UK cities & 50% growth in 85+ over 10yrs

Living on 2.3 planets Bristol is home to UK's largest biomass boiler cluster

Pollution – increase in health problems, 60,000 UK deaths pa

Less Govt expenditure We need smarter ways of working

More home working

Energy requirements Bristol has the first local authority large-scale wind turbine

Urban Challenges Worldwide have a very real local echo

‘I see Bristol as a laboratory for change’ Mayor George Ferguson

BIG DATA GENERATION

How? - Our philosophy of innovation, city-scale co-creation, enabled by a JV

Liveable, Sustainable, Resilient Cities Win

OUR RESPONSE…

A LOT OF PEOPLE

INVOLVED

NEEDS GOOD ORGANISATION &

A CITY-REGION

A city-scale digital research infrastructure

3G, 4G, LTE & 5G Technologies

An RF Mesh (canopy of connectivity) across the city

Being tested in the centre of Bristol now

Phase II, wider City-Region, live in stages 2015-17

A CityOS: built from a Software Defined Network

SDN + IoT + Big Data Analytics = foundation for developing livable smart city applications

Co-production - local people, businesses, academics, and local government

High Definition, Digital Data Dome, on the Bristol network

Societal – why?

Academic urban researchers

Large Corporations that work in cities

Small companies & communities

Micro users – apps, games & creative

Academic technology researchers

Large technology corporations

Small technology companies

Things connecting to other things (M2M)

Technical – how?

Eight types of network user

When will it work for who? Societal – why?

Academic urban researchers

Large Corporations that work in cities

Small companies & communities

Micro users – apps, games & creative

Academic technology researchers

Large technology corporations

Small technology companies

Things connecting to other things (M2M)

Technical – how?

Summer 2015 Summer 2015 Autumn 2015 Winter 2015

Autumn 2015 Autumn 2015 Winter 2015 Winter 2015

How is it run?

Bristol Is Open Paul Wilson Managing Director @bristolisopen @__paulwilson

Establish 5G test-beds 2015-17 SME exploitation 2018-22 How many test-beds? What’s the shortlist?

51

mm-Wave applications for

WiGig and 4G backhaul

Ray McConnell

CTO, BluWireless Technologies


© Blu-Wireless 2012 – Commercial in Confidence © Blu-Wireless Technology – 5G.SME.Workshop May 2015

5G.SME.Workshop 18th May 2015 Ray McConnell

mm-Wave Mesh for Access/4G-5G Backhaul

http://www.bluwirelesstechnology.com/


Blu Wireless Technology Ltd Partnership business -licensing WiGig System/Silicon IP

Prototype PHY1 Gigabit Digital Baseband (see demo)

Agile development of gigabit baseband PHY/MAC/Mesh

Delivery of low cost silicon technology to suppliers/partners

Roadmaps for more integration

Low cost and resilient mmWave mesh using WiGig

Team of 35+ industry experts in DSP & Wireless System

Working closely with University of Bristol

Advisory board comprises: Sir Robin Saxby (ARM Founder) Glenn Collinson (CSR Founder): Non Exec Director Prof Andrew Nix (University of Bristol)

Page 2 20 May 2015


5G Devices

WiGig for CE and Mobile Devices

Technology Progression to 5G

Page 3

2014 2015 2016 2017 2018

Back Haul for 4G LTE / Small Cells

20 May 2015


1000x Challenge

Page 4 20-May-15

Spectacular demand for increase of mobile data

1000x by 2020


1000x: Spectrum – 18x

Page 5 20-May-15

WiFi: From 480MHz(5GHz Band) to 9GHz (60GHz Band) = 18x !


1000x: Wireless Data Rates

Page 6 20-May-15

1

11

54

300

1300

4500

7000

15000

30000

1

2

4

8

16

32

64

128

256

512

1024

2048

4096

8192

16384

32768

MB

its/

s

Year

The Future... .11

.11b

.11g

.11n

.11ac

.11ad 16QAM

.11ad 64QAM

.11ad Bonding 256QAM 60GHz

5GHz

2.4GHz

How far can this go? (1.6x/yr)


1000x: Cells – 50-100x

Page 7 20-May-15

The Incredible Shrinking Cell

Short range mmWave


1000x: Cells – 50-100x

Page 8 20-May-15


1000x Challenge

Page 9 20-May-15

Network Capacity

(bits/s)/km2

= Spectrum (Hz)

X Spectral

Efficiency (bits/s)/Hz

X Cells per km2

Spectacular demand for increase of mobile data

1000x by 2020

~1000x = 10-18x X 2x(?) X 50-100x

mmWave Bands

Are advanced Waveforms necessary?

Using low cost Beamforming


Low cost 60GHz Technology

Page 10

Numerous development of 60 GHz RF on CMOS (65>40>28nm) and SiGe for 5+ years (802.15.3c)

Wireless HD entered market in 2009 : 4 Gbps at 10m (Bespoke)

WiGig / 802.11ad (WiFi)

Experimental for 5G (UCSD, DARPA)

20 May 2015


60 GHz Wireless Back Haul Worldwide unlicensed spectrum

Oxygen attenuation supports high spectrum reuse

Compact unit with phased array antenna

MP to MP Mesh network for ease of deployment with SDN control

Joint Back Haul/Access

Page 11

E-Band

60 GHz

Andy Sutton: Access Network Connectivity for Ultra Dense Urban LTE-A and 5G networks

20 May 2015


5G Network Slices

Page 12 20-May-15


++New Features: eg Datarate & Channelisation

Flexible Channel Widths

1.76GHz (.11ad)

880 MHz (.11ad/2)

440 MHz (.11ad/4)

Scalable Data Rates

2.3 Gbps (QPSK ¾ FEC)

4.6 Gbps (16QAM ¾ FEC)

2.3 Gbps (16QAM ½ ch)

1.15 Gbps (16QAM ¼ ch)

Dynamic channel assignment

Page 13

Frequency (GHz) 58.32 60.48 62.64 64.80

Frequency (GHz) 58.32 60.48 62.64 64.80

Frequency (GHz) 58.32 60.48 62.64 64.80

Frequency (GHz) 58.32 60.48 62.64 64.80

4 x 1.76 GHz

8 x 880 MHz

16 x 440 MHz

Mix : 6 x 440 + 3x880 + 1x1760 MHz

US / Korea

EU

Japan China

20 May 2015


60GHz Backhaul : Estimated Range

Page 14

Max EIRP = 40 dBmi (from FCC 15.255). Link availability 99.99%

Scaled 1:1 2:1 and 4:1 802.11ad QPSK SC modem 10% overhead and 1:1 full duplex datastream

0

50

100

150

200

250

300

350

400

0 mm rain/hrO2+Rain atten: 15 dB/km

London : Region E22mm rain/hr

O2+Rain atten: 25 dB/km

NYC: Region K42mm rain/hr

O2+Rain atten: 30 dB/km

Ran

ge (

m)

250 Mbps

500 Mbps

1000 Mbps

20 May 2015


‘Bristol is Open’ City Wide Test Bed

Page 15 20-May-15

Blu Wireless ‘Lightning’ PHY1 based prototype

OpenFlow Enabled

Mesh & Tree topologies

2Gbps connectivity

JV between the University of Bristol and Bristol City Council.

Partners include telecom and software companies, start-ups and public service delivery organisations.


LTE Densification

Page 16

Low latency per hop (OpenFlow)

50m Cell Radius, 89cells

380Mbps/Cell

48.6 Gbps/km2

9x 10Gbps Fibre POP

<Lower latency per hop (OpenFlow)

25m Cell Radius, 200cells

1200Mbps/Cell

875 Gbps/km2

37x 40Gbps Fibre POP

NGMN 5G Dense use case “1000x” Blu Wireless Bristol BIO use case

Key

BNet Fibre accessible

Small Cell

Fibre POP

20 May 2015


Harmonise 60 GHz Regulations?

Page 17

40 dBmi

EIRP

US : FCC

15.255

EU : CEPT REC(09)01 &

ETSI 302 217

Allows Gain & power trade-off

Min gain >30 dBi Max power <+10 dBm

Innovation:

Low Cost WiGig

Phased Array

Large Expensive Mechanical

Antenna Low Cost Mesh

20 May 2015


Wish List/Questions

‘Request for Information’ from Operators to clarify demand, requirements and possible volume

Will further stimulate low cost back haul development and technology availability

Harmonise EU 60 GHz radio regulations to support deployment of 60GHz phased array

Align Baseband Technology roadmap for mmWave gigabit capable user access with network backhaul within scope of 5G (with modifications)

Page 18 20 May 2015

© Blu-Wireless 2012 – Commercial in Confidence © Blu-Wireless Technology – 5G.SME.Workshop May 2015 Page 19

Thank you

For further information please visit

www.bluwirelesstechnology.com

or contact

[email protected]

[email protected]

20 May 2015

http://www.bluwirelesstechnology.com/

mailto:[email protected]



52

From Innovation to market /

Specialist Codec Solution Matthew Turner

CEO & Founder

53



W i l l t h e D S P b e a b o t t l e n e c k f o r m e

w h e n w e w a n t t o s c a l e t h i s a s a s e r v i c e ?

54

Defining Future 5G

Networks: SME Workshop Chair: Howard Benn Head of Standards and Industrial Affairs, Samsung Electronics Research Institute Session 2 – Technology and Network Enablers Workshop


Workshop

55


SME Workshop Hamid Falaki Technical Architect – Communications

Digital Catapult

Closure & Way Forward


56

Please look out for what we have captured and achieved

from this workshop at Digital Catapult Web site

http://www.digitalcatapultcentre.org.uk/





Defining Future 5G Networks - All Slides

Technology

g networks

g sme workshop welcome

g vision

sme workshop chair

g research technologies

g n etw

sme opportunities devices

outcome of todays workshop