gnss evolutionary architecture study (geas) - gps: … · · 2012-09-11federal aviation...
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Federal AviationAdministration
GNSS Evolutionary Architecture Study
(GEAS)
CGSIC20 September 2010
Leo Eldredge FAA GNSS Group
CGSIC2Federal Aviation
AdministrationSeptember 2010
GEAS Objectives
• Evaluate GNSS-based architectures to provide robust LPV-200 service worldwide circa 2020 – Multiple dual frequency GNSS constellations in protected
aeronautical bands – Direct estimation and removal ionospheric delay errors– Opportunity to consider advanced RAIM (ARAIM) techniques
• Enable a smooth integration of future GNSS in the user equipment
• Near term implications for WAAS (SBAS)– India and Russia are developing SBAS systems– Investigate potential to expand SBAS to provide global LPV
coverage– Multiple-constellation SBAS
CGSIC3Federal Aviation
AdministrationSeptember 2010
Current International Signal Plans
3
FutureCDMA signal
SBAS(US Europe India Japan)
QZSS(Japan)
IRNSS(India)
COMPASS(China)
Galileo(Europe)
GLONASS(Russia)
GPS(US)
L1L5 L2
CGSIC4Federal Aviation
AdministrationSeptember 2010
Current Reference Networks
-Courtesy of Todd Walter, Stanford University
CGSIC5Federal Aviation
AdministrationSeptember 2010
WAAS
EGNOS
MSAS
-Courtesy of Todd Walter, Stanford University
Current LPV-200 Coverage (Single Frequency GPS)
CGSIC6Federal Aviation
AdministrationSeptember 2010
Future LPV-200 Coverage (Dual Frequency GPS)
WAAS
EGNOS
MSAS
-Courtesy of Todd Walter, Stanford University
CGSIC7Federal Aviation
AdministrationSeptember 2010
WAAS, MSAS, EGNOS, GAGAN and SDCM Reference Networks
-Courtesy of Todd Walter, Stanford University
CGSIC8Federal Aviation
AdministrationSeptember 2010
WAAS, MSAS, EGNOS, GAGAN & SDCM(Dual Frequency GPS)
-Courtesy of Todd Walter, Stanford University
CGSIC9Federal Aviation
AdministrationSeptember 2010
Expanded Networks
-Courtesy of Todd Walter, Stanford University
CGSIC10Federal Aviation
AdministrationSeptember 2010
WAAS, MSAS, EGNOS, GAGAN & SDCM(Dual Frequency GPS + Expanded Networks)
-Courtesy of Todd Walter, Stanford University
CGSIC11Federal Aviation
AdministrationSeptember 2010
WAAS
EGNOS
MSAS
GAGAN
SDCM
WAAS, MSAS, EGNOS, GAGAN & SDCM(Dual Frequency GPS + Expanded Networks + Two GNSS Constellations)
-Courtesy of Todd Walter, Stanford University
CGSIC12Federal Aviation
AdministrationSeptember 2010
Conclusions
• Single frequency coverage is good within the countries fielding SBAS
• Dual frequency extends LPV coverage outside reference networks
• Expanding networks into southern hemisphere could allow global coverage of land masses
• Multi-Constellation SBAS allows even greater coverage with fewer stations– Compatible Geodesy and Time Standards are
Important
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