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SBAS General Introduction: Difference between revisions
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As defined by the International Civil Aviation Organization (ICAO), a Global Navigation Satellite System (GNSS) is a ''worldwide position and time determination system that includes one or more satellite constellations, aircraft receivers, and system integrity monitoring, augmented as necessary to support the required navigation performance for the intended operation''.<ref>ICAO International Standards and Recommended Practices, Annex 10 to the Convention pm International Civil Aviation, Volume I Radio Navigation Aids, Section 3.7.1: Definitions</ref> Current satellite navigation systems (GPS, GLONASS) were not designed to meet the real-time integrity monitoring capability required by the civil aviation navigation safety needs. To overcome the above limitation, several [[GNSS Augmentation|Augmentation Systems]] have been put in place. A Satellite Based Augmentation System ([[Satellite Based Augmentation System|SBAS]]) is a wide-area differential augmentation system. A network of ground stations at known positions is deployed over the SBAS service area in order to monitor the ranging signals of the satellite constellation. The SBAS collects and process all the input dta provided by the station network in order to compute (see [[SBAS Fundamentals|SBAS Fundamental section]] for further details) and provide corrections to the original navigation information of the primary constellation (satellite orbit and clock errors, ionospheric errors) and its integrity bounds information over a certain region. The SBAS navigation message is disseminated over the service area by a GEO. Currently, several [[SBAS systems|SBAS systems]] are in an operational capability, [[WAAS|WAAS]] in United States, [[EGNOS|EGNOS]] in Europe, and [[MSAS|MSAS]] in Japan, or under development, [[SDCM|SDCM]] in Russia Federation or [[GAGAN|GAGAN]] in India). Finally, it is worth noting that both the service providers (operational SBAS system point of view) and the SoL service users (SBAS receivers) shall be developed and operated being compliant with international recognized standards (see [[SBAS standards|SBAS standards]]) in order to assure a high degree of interoperability between different SBAS. | |||
==Introduction== | ==Introduction== |
Revision as of 07:54, 1 April 2011
Fundamentals | |
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Title | SBAS General Introduction |
Author(s) | GMV |
Level | Basic |
Year of Publication | 2011 |
As defined by the International Civil Aviation Organization (ICAO), a Global Navigation Satellite System (GNSS) is a worldwide position and time determination system that includes one or more satellite constellations, aircraft receivers, and system integrity monitoring, augmented as necessary to support the required navigation performance for the intended operation.[1] Current satellite navigation systems (GPS, GLONASS) were not designed to meet the real-time integrity monitoring capability required by the civil aviation navigation safety needs. To overcome the above limitation, several Augmentation Systems have been put in place. A Satellite Based Augmentation System (SBAS) is a wide-area differential augmentation system. A network of ground stations at known positions is deployed over the SBAS service area in order to monitor the ranging signals of the satellite constellation. The SBAS collects and process all the input dta provided by the station network in order to compute (see SBAS Fundamental section for further details) and provide corrections to the original navigation information of the primary constellation (satellite orbit and clock errors, ionospheric errors) and its integrity bounds information over a certain region. The SBAS navigation message is disseminated over the service area by a GEO. Currently, several SBAS systems are in an operational capability, WAAS in United States, EGNOS in Europe, and MSAS in Japan, or under development, SDCM in Russia Federation or GAGAN in India). Finally, it is worth noting that both the service providers (operational SBAS system point of view) and the SoL service users (SBAS receivers) shall be developed and operated being compliant with international recognized standards (see SBAS standards) in order to assure a high degree of interoperability between different SBAS.
Introduction
SBAS Fundamentals
SBAS Standards
SBAS Systems
Notes
References
- ^ ICAO International Standards and Recommended Practices, Annex 10 to the Convention pm International Civil Aviation, Volume I Radio Navigation Aids, Section 3.7.1: Definitions