International Civil Aviation Organization - PowerPoint PPT Presentation

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International Civil Aviation Organization

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Presentation 5.1 A Integrity of GNSS Presented by E. Chatre, Rapporteur GNSSP Working Group B CAR/SAM ATN/GNSS Seminar Varadero, Cuba, 6 to 9 May 2002 – PowerPoint PPT presentation

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Title: International Civil Aviation Organization


1
International Civil Aviation Organization
  • Presentation 5.1 A
  • Integrity of GNSS
  • Presented by E. Chatre,
  • Rapporteur GNSSP Working Group B
  • CAR/SAM ATN/GNSS Seminar
  • Varadero, Cuba, 6 to 9 May 2002

2
What is integrity for GNSS ?
  • GPS or GLONASS Satellites may broadcast erroneous
    signals for several hours causing pseudorange
    errors
  • GPS or GLONASS may broadcast erroneous clock or
    ephemeris data causing positioning errors
  • Users want to be guaranteed safe operations
  • Need for monitoring capability
  • Need for timely warning when anything goes wrong
  • Different Solutions exist to provide integrity
    for civil aviation ABAS, SBAS and GBAS

3
Autonomous Integrity in ABAS
  • Users need 4 satellite measurements to determine
    the 3D position time
  • Usually many more satellites are available (6 to
    12) providing redundancy
  • Receiver Autonomous Integrity Monitoring (RAIM)
    uses this redundancy to cross check the
    consistency of measurements and determine any
    anomaly
  • RAIM provides integrity and instantaneous warning
    when it is available
  • RAIM uses at least 5 satellites for fault
    detection and 6 satellites for fault exclusion

4
Availability of Autonomous Integrity
  • Service availability depends on the phase of
    flight (NPA is less available than En-route) and
    needs good satellite geometry
  • RAIM Availability at a particular location and
    given time can be predicted based on almanac data
  • This is the short term solution adopted by many
    States and availability can be improved when
    combining with other sensors like Baro Altimeter
    or INS
  • Some operational limitation may be required
  • RAIM/ABAS not sufficiently available for APV or
    precision approach operations
  • Overall integrity achieved relies on some
    assumptions

5
SBAS and GBAS
  • SBAS and GBAS are designed to cope with GPS
    and/or GLONASS satellite failures
  • SBAS and GBAS systems monitor and send
    corrections as necessary and, if not able to
    determine a correction, send warnings to users
  • Two things still need to be guaranteed
  • 1. That the corrections have an accuracy
    sufficient for the phase of flight considered
  • 2. That the data transmitted by the SBAS or GBAS
    are correct and well received
  • Integrity for GBAS and SBAS consists in ensuring
    these two things

6
Guarantee that accuracy is sufficient
  • Estimates of pseudorange residual errors are
    computed by the ground segment
  • This is broadcast on the datalink to users
  • Users know the satellite geometry and can compute
    bounds on the horizontal and vertical position
    errors
  • These bounds are called Protection Levels (HPL
    and VPL). They provide good confidence (10-7/hour
    probability) that the true position is within a
    bubble around the computed position

7
Protection Level
  • Probability (Position Error ?HPL) ? 10-7/hour

Horizontal Protection Level (HPL)
Computed Position
True Position
8
Guarantee that broadcast data are correct
  • Data generation shall be monitored
  • Parallel processing chains are usually used based
    on independent hardware/software
  • Data sources may also be duplicated (several
    receivers)
  • Integrity monitor is designed to check data
    before they are sent based on comparison
  • Integrity monitor can be implemented in the
    position domain to check that the data already
    broadcast are correct
  • Data transmission is protected using parity check

9
Impact of Integrity loss
  • When the protection level exceeds the alert
    limit, integrity is not ensured at a proper level
  • Some problems may affect a small area around a
    specific airfield
  • Other problems will impact multiple users over
    wide areas
  • Impact on Air Traffic Services will depend on
  • existence of back-ups (airborne and/or ground)
  • overall ATS infrastructure (radar surveillance)
  • traffic density
  • procedural mitigation
  • Need to issue NOTAM whenever possible
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