LEO NETWORK COMMUNCATIONS - PowerPoint PPT Presentation

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LEO NETWORK COMMUNCATIONS

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Because most of the Earth s surface has no access to terrestrial communication ... Motorola plans to build Iridium. 1992 ... Because of an increasingly mobile ... – PowerPoint PPT presentation

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Title: LEO NETWORK COMMUNCATIONS


1
LEO NETWORK COMMUNCATIONS
Trina Dobson Paul Woolaver Bob Whynot
2
INTRODUCTION
  • Need for LEOs.
  • Brief history.
  • Characteristics.
  • Design issues.
  • Types of LEOs.
  • Major players.
  • Teledesic example.

3
WHY LEO?
  • Because most of the Earths surface has no access
    to terrestrial communication lines.
  • Because GEOs cannot facilitate real-time
    applications.
  • Because of an increasingly mobile workforce.

4
BRIEF HISTORY
  • 1984 U of Surrey launches UoSAT-2
  • 1985 LEO network concept conceived by Motorola.
  • 1988 Teledesic system conceived.
  • 1990 Motorola plans to build Iridium.
  • 1992 WARC-92
  • 1995 FCC starts granting licenses to LEO
    companies
  • 1997 Iridium launches 41 satellites.
  • 1998 Motorola invests 750 M in Teledesic.

5
CHARACTERISTICS
  • 1/3 the delay of GEOs (and dropping).
  • More in common with Terrestrial based cellular
    service.
  • Autonomous network.
  • Dynamic topology.
  • Cheap compared to GEOs.
  • The great packet switching network in the sky.

6
DESIGN ISSUES
  • Delay needs to be minimized.
  • Tail charges need to be minimized.
  • Processing needs to be minimized.
  • Battery charge is limited.
  • No upgrades after launch.
  • Routing algorithms.
  • Placement of ground terminals.

7
TYPES OF LEOS
  • Little LEO and Big LEO.
  • Little LEO
  • Slow data communications.
  • Paging/store-and-forward, messaging.
  • Communicate directly with ground stations.
  • Weigh 50 to 100 kg.
  • Frequencies
  • Downlink 137 to 138 and 400.15 to 401 MHz
  • Uplink 148 to 149.9 MHz.

8
TYPES OF LEOS
  • Big LEO (Broadband LEO)
  • High speed communication.
  • Voice, Data, Video, etc.
  • Generally Utilize ISLs.
  • Smart nodes.
  • Weigh 350 500 kg.
  • Frequencies
  • 1610 1626.5 MHz.

9
MAJOR PLAYERS
  • Teledesic
  • Iridium (???)
  • Skybridge
  • Globalstar
  • Motorola
  • Lockheed
  • Boeing

10
TELEDESIC EXAMPLE
  • 288 satellite constellation.
  • Each satellite makes a complete orbit in 100
    minutes.
  • Use of unique ATM-like protocol.
  • Utilize ISLs (Intersatellite Links) via lasers.

11
TELEDESIC
  • Plans to interface with IP, ISDN and ATM.
  • Communication within the network is treated as
    streams of short, fixed-length packets
  • HEADER destination address and sequence info
  • ERROR CONTROL verify the integrity of the header
  • PAYLOAD digitally encoded user data (voice,
    video, data, etc.)
  • Conversion to and from packet form takes place on
    the edge of the network.
  • Frequency license
  • DOWNLINK 18.8 GHz to 19.3 GHz
  • UPLINK 28.6 GHz to 29.1 GHz

12
TELEDESIC
  • Plans to offer two different connections
  • PACKAGE 1 64 Mbps on the downlink and 2 Mbps on
    the uplink.
  • PACKAGE 2 64 Mbps full duplex.
  • Teledesic estimate that an antenna will have to
    switch satellites every 4 minutes!
  • Routing algorithms originally used to manage
    congestion in ATM networks will be used
    frequently in the Teledesic system.
  • Using ISLs Teledesic hopes to reduce delay from
    100 to 40 milliseconds.
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