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Satellites: New Technologies and New Systems

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Antenna Technology. Current State of the Industry. Big Four Operators. SES. 53 satellites in orbit. ... LEO HTS Constellations - questions. Capacity density is lacking. – PowerPoint PPT presentation

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Title: Satellites: New Technologies and New Systems


1
Satellites New Technologies and New Systems
  • David Ball
  • dball1301_at_gmail.com

2
Agenda
  • Current State of the Industry
  • High Throughput Satellites
  • New Space
  • Antenna Technology

3
Current State of the Industry
4
Big Four Operators
  • SES
  • 53 satellites in orbit
  • 7 new satellites to be launched over next 3 years
  • 2015 revenue Euro 2.0B
  • Intelsat
  • 50 satellites in orbit
  • 7 new satellites to be launched over next 3 years
  • 2015 revenue US 2.35B
  • Eutelsat
  • 39 satellites in orbit
  • 6 new satellites to be launched over next 3 years
  • 2014/15 revenue Euro 1.4B
  • Telesat
  • 15 satellites in orbit
  • 2015 revenue C 955M

5
Headwinds
  • Capacity Pricing
  • Launch Vehicle Availability
  • Competition from new entrants
  • ABS
  • ViaSat
  • Avanti
  • YahSat
  • Impact of disruptive technology
  • High Throughput Satellites
  • Reach of Fibre
  • Impact of OTT

6
High Throughput Satellites
7
High Throughput Satellites
  • Definition
  • Multi-spot beam, multiple frequency re-use
  • Significantly greater throughput from a given
    orbital location compared to traditional FSS
    designs
  • HTS satellites are not restricted to Ka band
  • Some of the first HTS satellites operated at Ku
    band (IPStar)
  • Intelsat EPIC
  • GEO HTS
  • Regional
  • Global Constellations
  • MEO HTS Constellations
  • LEO HTS Constellations

8
GEO HTS Throughput Growth
Satellite Year Band Throughput
Various Ku/C 2 GHz
IPStar 2005 Ku/Ka 45 Gbps
Wildblue-1 2006 Ka 8 Gbps
Spaceway-3 2007 Ka 10 Gbps
Ka-Sat 2010 Ka 90 Gbps
ViaSat-1 2012 Ka 140 Gbps
NBN-1a 2015 Ka 135 Gbps
Viasat-2 2016 Ka gt200 Gbps
Viasat-3 2019 (planned) Ka 1 Tbps
9
Telstar 12 Vantage
10
SES HTS Fleet Expansion
11
Intelsat Epic Satellites
12
Inmarsat-5 constellation
13
Viasat-3 Constellation
14
Closed versus Open Systems
  • Closed Systems
  • Purchase managed service (Mbps)
  • Pre-defined standardised service offering
  • Asymmetric services are typical
  • Remote terminals standardised
  • All traffic must flow through operators gateways
  • QoS is pre-defined
  • Open Systems
  • Can purchase MHz
  • Hybrid models also offer managed service options
  • Offerings are tailored for specific applications
  • Third party gateways are possible
  • QoS is determined by network configuration

15
Existing HTS Systems
  • Closed Systems
  • Fully Integrated Offerings
  • ViaSat
  • Hughesnet
  • Satellite Operator / Vendor Partnership
  • Inmarsat GX iDirect
  • Eutelsat tooway ViaSat
  • Yahsat Hughes
  • Telesat Vantage 19 Hughes
  • NBNCo ViaSat
  • Open Systems
  • Intelsat Epic
  • IPStar
  • Inmarsat High Capacity Overlay Payload
  • O3b (MEO constellation)

16
Is HTS a Disruptive Technology?
  • Changing the metrics of the satellite industry
  • Mbps versus MHz
  • Fill-rate what is the valid measurement?
  • End-to-end solutions
  • Packaged solutions rather than bespoke solutions
  • Potential to cannibalise existing FSS revenues
  • ViaSat-3 constellation 2 x total capacity of
    existing GEO fleet
  • Impact on service providers and teleport
    operators
  • Defined gateway locations
  • Operator build out of unified network
  • Limited opportunities for third party teleport
    operators

17
HTS System Design
  • Total System Throughput is determined by
  • Modulation Efficiency
  • Available Bandwidth
  • Frequency Re-use

18
HTS System Design
  • Improving Total System Throughput
  • Modulation Efficiency
  • Gains are limited by channel non-linearity
  • Available Bandwidth
  • Reduce colour count wider transponder BW
  • Expansion into non-standard bands, new frequency
    bands
  • Frequency Re-use
  • Narrower beams, increased spotbeam count,
    increased frequency re-use

19
Transitioning from Ku- to Ka-band
20
Transitioning from Ku- to Ka-band
21
Future HTS Developments
  • Demand drivers
  • quest for more throughput....the Netflix
    effect.....
  • Fast, cheap, good
  • Pick any two.....

22
Future HTS Developments Efficiency Drivers /
Goals
  • Increase Overall Throughput
  • Modulation efficiency
  • Use of new frequency bands for feeder links
  • Need to consider spectrum licensing and
    availability
  • Reduce Cost per Bit
  • Space segment cost improve efficiency
  • Gateway efficiency throughput / number of
    gateways
  • Reduce cost of user equipment / antennas /
    installation
  • Flexible Architecture
  • Respond to changing market demands
  • Increased deployment of processing payloads

23
Future HTS Developments Additional Spectrum
  • Use additional feeder link spectrum
  • Q band
  • Space-to-earth 37.5 42.5 GHz
  • V band
  • Earth-to-space 47.2-51.4 GHz
  • W band
  • Space-to-earth 71-76 GHz
  • Earth-to-space 81-86 GHz
  • Most ITU filings already include Q and V band
  • The race for spectrum has begun early
  • Equipment availability limited at this time

24
Current Ka Spectrum Usage(varies by ITU region)
25
Potential Future Usage - add Q and V bands
V band
47.2 GHz
51.4 GHz
42.5 GHz
Q band
Issues - Licensing of remote terminals over
wider spectrum range - Potential for
interference to / from terrestrial users in
shared Ka bands - Coordination with non-GSO
systems
26
New Space
27
Non-GEO Constellations
  • Optical Constellation
  • Laser Light
  • MEO constellation, 8 satellites, 6 Tbps
    throughput
  • Recent announcements of LEO HTS systems
  • COMMstellation 75 satellites
  • LEOSat 120-140
  • Oneweb 700
  • SpaceX 4000
  • Samsung 4600
  • Xinwei 30

28
HTS Constellations
  • Deployment of LEO HTS networks will represent
    order of magnitude increase in HTS capacity
  • 2013 500 Gbps
  • 2023 2500 Gbps
  • 2023 with one LEO 8500 Gbps
  • 2023 with three LEO 25000 Gbps

Source Northern Skies Research
29
LEO HTS Constellations - questions
  • Capacity density is lacking
  • Different constellations are focused on different
    applications
  • Backhaul
  • Direct to user broadband
  • Enterprise
  • Polar orbits
  • User terminal technology
  • Satellite switching
  • Electronically steered antenna technology
  • Launch Vehicle Capacity for large constellations
  • Where will the launch capacity come from?

30
Antenna Technology
31
Satellite News Gathering
32
Comms on the Move
33
Maritime Antennas
34
Aeronautical antennas
35
Questions
  • David Ball
  • dball1301_at_gmail.com
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