Radcomms presentation from ses 1 nov 2017 small

SES Proprietary and Confidential | Introduction to SES NetworksSES Proprietary and Confidential | Introduction to SES Networks
PRESENTED BY
Glen Tindall
PRESENTED ON
1 November 2017
SES Networks
ACMA RADCOMMS Summit 2017

SES Proprietary and Confidential | Introduction to SES Networks
WHAT
WE ARE
We are a provider
of global managed
data services

WHAT
WE DO
We enable high-performance
networked communications
virtually anywhere

SES Proprietary and Confidential | Introduction to SES Networks 4
SES & O3b
Combined GEO and MEO fleet
Today
55 x GEO satellites
12 x MEO satellites
In the factory
3 x GEO satellites
15 x MEO satellites

SES & O3b
SES Ground Network
SD-WAN
architecture
MEF
compliant

ULTIMATE
FLEXIBILITY
GLOBAL
COVERAGE
100%
PRODUCTIVE
MULTI-TERABIT
CAPACITY

A New MEO Constellation
Enabling truly global cloud-scale connectivity
 SES Networks already operates the only MEO satellites for the lowest-latency service from space
 In 2021, seven next-generation MEO satellites will be added to the O3b fleet
 Setting new industry benchmarks across multiple performance metrics
PRODUCTIVITYCOVERAGECAPACITY FLEXIBILITY
Multi-
Scalable to 10s
of Tbps globally
terabit
100%
productive
Beams
go to
customers,
not empty
territory4,000+beams per satellite
Shape,
moderate,
route, shift
& switch
~400M
Square
kilometres
covered

4G DEPLOYED
WHERE 4G IS
IMPOSSIBLE
“Our customers’ need for
speed and reliability is at the
core of our partnership.
Michael Murphy
CEO of Digicel Pacific

WEAVING A
NEW SOCIAL
FABRIC
“We saw a specific opportunity
to deliver services to parts of
sub-Saharan Africa.
Max Kamenetsky
Director of Connectivity Deployments

Panasonic
DIRECT
SERVICE TO
CLOUD NINE
“We are always looking for innovative
high throughput satellite designs that
help us deliver the best connectivity
service to our customers.
David Bruner
VP, Global Communications Services

CONNECTING
THE
DISCONNECTED
“More than 160 GB of data has been sent...
enough data to send and receive around 30
million WhatsApp messages, or 2 million emails.
Alastair Westgarth
Head of Project Loon

MILITARY
AS A
SERVICE
“The customer has been very
pleased with the service our extended
SES Networks team has provided.
Pete Hoene
President & CEO, SES GS

What is 5G (IMT-2020)?
Diverse Usage Scenarios
13
Observations
“5G-only” use
cases are few
and challenging
even for mobile
networks
Most use cases
are achievable
using existing
technologies
 GSMA, “5G Spectrum: Public Policy Position” (Nov. 2016):

Satellites Can Support the Key Usage Scenarios for 5G
14
 Satellites can support multi-gigabit per second data rates for
enhanced mobile broadband
• Satellites routinely carry high bandwidth HD and UHD content, 2G/3G mobile
backhaul in many parts of the world, and high-throughput satellites (HTS) in GEO,
MEO and LEO will support 4G and 5G mobile networks
 Satellites can support ultra-reliable communications
• Our customers – international broadcasters, MNOs, governments – depend on us
every day to ensure ultra-reliable communications. GEO latency of 250ms (500ms
round-trip) is acceptable for many 5G applications, and new MEO and LEO networks
will be able to support more latency-sensitive applications. Satellites can even play a
role in helping 5G networks meet their sub-1ms latency requirements by delivering
commonly accessed content to mobile base stations
 Satellites can support massive machine-to-machine communications
• Satellites already support SCADA and other global asset tracking applications today,
and can scale to support future machine-to-machine (Internet-of-Things)
communications. Investments in new ground segment technologies, such as smaller,
lower cost, electronically steerable, and/or phased-array satellite transceivers are
making ubiquitous deployment for IoT feasible

Why Integrate Satellites in 5G?
15
 Satellite’s ability to extend terrestrial networks is essential for an inclusive digital society to ensure
that the benefits of 5G (or even 4G) are made available beyond the urban cores
• Otherwise, 5G and 4G will only be providing more broadband to those who already have it
 Satellites today already complement and help extend terrestrial networks to places they would not
otherwise reach – 2G/3G/4G mobile backhaul, rural Wi-Fi backhaul, aeronautical and maritime
broadband
• New High Throughput Satellite (HTS) systems – both geostationary and non-geostationary – will bring even higher speeds, lower
cost-per-bit, and lower latency (when needed) to support current 4G and future 5G/Wi-Gig networks
• In order to meet the low latency (sub-1ms) requirements of future 5G applications, commonly accessed content will need to be
efficiently distributed and stored at the base of every 5G cell site – a multi-cast or point-to-multipoint function at which satellites
excel
• Satellites also support many IoT networks today (e.g. global asset tracking and SCADA) and can scale to meet expanded IoT
requirements of the future, e.g. connected cars, planes and ships

Four Satellite “Sweet Spots” in the 5G Ecosystem
16
 Four main use cases for the integration of satellite-based solutions into 5G (IMT-2020)
These four “sweet spots” leverage the advantages of satellites – high bandwidth and
ubiquitous coverage – to enable and extend terrestrial 5G networks

Integrating Satellites into the 5G Ecosystem
Satellite and Terrestrial Network for 5G
17
 “SaT5G” – or Satellite and Terrestrial
Network for 5G – is an industry-led
consortium funded by the European
Commission that will research and validate
the key technology enablers for integration
of satellites into 5G, and demonstrate
them in live 5G test beds
• 16 partner companies consisting of satellite
and terrestrial operators, equipment
manufacturers, universities and research
centers
• 30-month project that will run from June 2016
to November 2019

Satellites Already Use mmWave Spectrum
18
 Satellite spectrum requirements must also be taken into account in 5G spectrum planning
 Many of the current High Throughput Satellite (HTS) systems already make extensive use of
mmWave spectrum representing billions of dollars of investment
• Serving Australia: IPStar, GlobalXpress, NBN, O3b
• Serving elsewhere: ViaSat-1/2, Jupiter-1/2, KaSat, Hylas …
 Next-generation Very High Through Satellites (VHTS) will use even more mmWave spectrum
• At least six global non-geostationary constellations have been proposed using the Ka- and Q-/V-band frequencies
 VHTS satellites are making increasingly efficient use of spectrum
• Each of SES’ new MEO satellites (mPower) achives 400 X the throughput of the previous generation (O3b)
400 X

World Radio Conference
2019 (WRC-19)
Agenda Item 1.13 will
consider over 31 GHz
worth of spectrum as
potential bands for
terrestrial mobile
5G (IMT-2020)
services
28 GHz Band
 Not included in WRC-19 Agenda
Item 1.13, and therefore is
unlikely to be internationally
harmonised
 Used extensively in more than
20 GEO and non-GEO satellite
systems, launched in the past 4
years, including NBN
 No need to consider the 28
GHz band as there is ample
other spectrum (more than 31
GHz worth) identified as
potential 5G bands
26 GHz Band
 24.65-25.25 GHz is an FSS
uplink band intended to feed the
21.4-22 GHz BSS (multicast)
downlink band, and the 27.0-
27.5 GHz is an FSS uplink band
is used on NBN satellites in
Australia
 Consider prioritizing portions
of band not shared with satellite
 Consider establishing sharing
conditions in the shared bands
based on ITU-R TG 5/1 studies
19
mmWave Spectrum for Terrestrial Mobile 5G
Satellite Perspectives

32 GHz Band
 31.8-33.4GHz has good
prospect for international
harmonisation as it was
proposed for study by all three
ITU regions at WRC-15
66 GHz and 81 GHz Bands
 Good prospects for
international harmonisation
given limited existing and
planned uses
 About 15 GHz of spectrum in
contiguous blocks of at least 5
GHz available
 Suitable for high-density indoor
and outdoor 5G deployment
scenarios
 Potential synergies with Wi-Gig
at 61 GHz
Q-/V-Bands (37-52 GHz)
 Multiple satellite companies have
announced plans to deploy next-
generation VHTS systems using
portions of the Q-/V-bands
 Sharing studies are currently
underway
20
mmWave Spectrum for Terrestrial Mobile 5G
Satellite Perspectives – better options

Conclusions
21
 Satellites will play an important role in digital inclusion such as by
extending 5G networks to hard-to-serve, under-served and un-
served areas of the world
 Regulatory and technical decisions should enable, and not
preclude, satellites from playing a role in the 5G ecosystem
 Spectrum decisions relating to terrestrial mobile 5G should not
and need not be mutually exclusive of current and next-generation
HTS and VHTS satellites, especially when there is ample other
mmWave spectrum available in bands not used or planned to be
used by satellites

SES Proprietary and Confidential
Glen Tindall
Head, Government Sales, Asia-Pacific
22
Glen.Tindall@ses.com
T +65 6593 3600
M +61 478 753 322
Q4 '16 – Brand Team – SES PPT Template Refresh – KSM – md
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