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{{Article Infobox2
{{Article Infobox2
|Category=Fundamentals
|Category=Fundamentals
|Title={{PAGENAME}}
|Authors=J. Sanz Subirana, J.M. Juan Zornoza and M. Hernández-Pajares, Technical University of Catalonia, Spain.
|Authors=J. Sanz Subirana, JM. Juan Zornoza and M. Hernandez-Pajares, University of Catalunia, Spain.
|Level=Basic
|Level=Basic
|YearOfPublication=2011
|YearOfPublication=2011
|Title={{PAGENAME}}
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Regarding the GNSS, the GPS Time (GPST), GLONASS Time (GLONASST) and Galileo System Time (GST) are the reference times used in GPS, GLONASS and Galileo applications, respectively.


GNSS Systems strongly rely on measuring the time of arrival of radio signals propagation. Thus, each GNSS System has its own time reference from which all elements of the Space, Control and User segments are time synchronized, as well most of the [[GNSS Applications|GNSS-based applications]].
The most relevant GNSS time references are briefly described below.


GPST is defined by the GPS Control segment on the basis of a set of atomic clocks aboard the satellites and in the Monitor Stations. It is synchronised with the UTC(USNO) at nanosecond level. The origin epoch of GPS time is 0<sup>h</sup> UTC (midnight) of January 5th to 6th of 1980 (6<sup>d</sup>· 0). At that epoch, the difference TAI−UTC was 19 seconds, thence GPS−UTC=n − 19<sup>s</sup>.
==GPS Time (GPST)==
GPS Time (GPST) is a continuous time scale (no leap seconds) defined by the GPS Control segment on the basis of a set of atomic clocks at the Monitor Stations and onboard the satellites. It starts at 0<sup>h</sup> UTC (midnight) of January 5th to 6th 1980 (6.<sup>d</sup>0). At that epoch, the difference TAI−UTC was 19 seconds, thence GPS−UTC=n − 19<sup>s</sup>. GPS time is synchronised with the UTC(USNO) at 1 microsecond level (modulo one second), but actually is kept within 25 ns.<ref>[http://www.gps.gov/technical/icwg/IS-GPS-200G.pdf GPS Interface Specification, Navstar GPS Space Segment/Navigation User Segment Interfaces (IS-GPS-200G)], GPS Directorate, Revision G, 21 September 2011</ref>


==GLONASS Time (GLONASST)==
GLONASS Time (GLONASST) is generated by the GLONASS Central Synchroniser and the difference between the UTC(SU) and GLONASST should not exceed 1 millisecond plus three hours<ref group="footnotes">The difference between Moscow Time and Greenwich Mean Time (GMT).</ref> (i.e.,<math>GLONASST=UTC(SU)+3^h-\tau</math>, where <math>|\tau|< 1
milisec.</math>), but <math>\tau</math> is typically better than 1 microsecond. Note:  Unlike GPS, Galileo or BeiDou, GLONASS time scale implements leap seconds, like UTC.<ref>[http://www.spacecorp.ru/upload/iblock/1c4/cgs-aaixymyt%205.1%20ENG%20v%202014.02.18w.pdf GLONASS Interface Control Document, Navigation radiosignal In bands L1, L2 (ICD L1, L2 GLONASS)], Russian Institute of Space Device Engineering, Edition 5.1, 2008</ref>


GLONASST is generated by the GLONASS Central Synchroniser and the differ- ence between the UTC(SU) and GLONASST should not exceed 1 millisecond plus three hours<ref group="footnote">The difference between Moscow Time and Greenwich Mean Time (GMT).</ref> (i.e.,<math>t_{GLONASS}=t_{UTC(SU)}+3^h-\tau</math>, where <math>|\tau|< 1
==Galileo System Time (GST)==
milisec.</math>).
Galileo System Time (GST) is a continuous time scale maintained by the Galileo Central Segment and synchronised with TAI with a nominal offset below 50 ns. The GST start epoch, GST(T0), is defined 13 seconds before 0:00:00 UTC on Sunday, 22 August 1999 (midnight between 21 and 22 August).<ref>[http://ec.europa.eu/DocsRoom/documents/11870/attachments/1/translations/en/renditions/native Galileo Open Service Signal In Space Interface Control Document (OS SIS ICD)], GSA, Issue 1.1, September 2010</ref>
 
 
GST will be maintained by the Galileo Central Segment and synchronised with TAI with a nominal offset below 50 ns. The starting time of Galileo system is not already defined.


==BeiDou Time (BDT)==
BeiDou Time (BDT) is a continuous time scale starting at 0<sup>h</sup> UTC on January 1st, 2006<ref> BeiDou Signal In Space Interface Control Document, Open Service Signal (BDS-SIS-ICD-2.0), China Satellite Navigation Office, Version 2.0, December 2013</ref>. In order to be as consistent as possible with UTC, BDT may steer to an interposed frequency adjustment after a period of time (more than 30 days) according to the situation, but the quantity of adjustment is not to allowed more than 5x10E-15 <ref>[https://nap.nationalacademies.org/read/13292/chapter/10#87 National Academies of Sciences, Engineering, and Medicine. 2012. Global Navigation Satellite Systems: Report of a Joint Workshop of the National Academy of Engineering and the Chinese Academy of Engineering. Washington, DC: The National Academies Press]</ref>.


==Notes==
==Notes==
<references group="footnote"/>
<references group="footnotes"/>


==References==
==References==
* Hofmann-Wellenhof, B., Legat, K. and Wieser, M., 2003. Navigation. Principles of positioning and guidance. Springer-Verlag, Wien, Austria.
<references/>
 


[[Category:Fundamentals]]
[[Category:Fundamentals]]
[[GNSS Time Reference, Coordinate Frames and Orbits]]
[[Category:GNSS Time Reference, Coordinate Frames and Orbits]]

Latest revision as of 06:41, 11 September 2023


FundamentalsFundamentals
Title Time References in GNSS
Author(s) J. Sanz Subirana, J.M. Juan Zornoza and M. Hernández-Pajares, Technical University of Catalonia, Spain.
Level Basic
Year of Publication 2011


GNSS Systems strongly rely on measuring the time of arrival of radio signals propagation. Thus, each GNSS System has its own time reference from which all elements of the Space, Control and User segments are time synchronized, as well most of the GNSS-based applications. The most relevant GNSS time references are briefly described below.

GPS Time (GPST)

GPS Time (GPST) is a continuous time scale (no leap seconds) defined by the GPS Control segment on the basis of a set of atomic clocks at the Monitor Stations and onboard the satellites. It starts at 0h UTC (midnight) of January 5th to 6th 1980 (6.d0). At that epoch, the difference TAI−UTC was 19 seconds, thence GPS−UTC=n − 19s. GPS time is synchronised with the UTC(USNO) at 1 microsecond level (modulo one second), but actually is kept within 25 ns.[1]

GLONASS Time (GLONASST)

GLONASS Time (GLONASST) is generated by the GLONASS Central Synchroniser and the difference between the UTC(SU) and GLONASST should not exceed 1 millisecond plus three hours[footnotes 1] (i.e.,[math]\displaystyle{ GLONASST=UTC(SU)+3^h-\tau }[/math], where [math]\displaystyle{ |\tau|\lt 1 milisec. }[/math]), but [math]\displaystyle{ \tau }[/math] is typically better than 1 microsecond. Note: Unlike GPS, Galileo or BeiDou, GLONASS time scale implements leap seconds, like UTC.[2]

Galileo System Time (GST)

Galileo System Time (GST) is a continuous time scale maintained by the Galileo Central Segment and synchronised with TAI with a nominal offset below 50 ns. The GST start epoch, GST(T0), is defined 13 seconds before 0:00:00 UTC on Sunday, 22 August 1999 (midnight between 21 and 22 August).[3]

BeiDou Time (BDT)

BeiDou Time (BDT) is a continuous time scale starting at 0h UTC on January 1st, 2006[4]. In order to be as consistent as possible with UTC, BDT may steer to an interposed frequency adjustment after a period of time (more than 30 days) according to the situation, but the quantity of adjustment is not to allowed more than 5x10E-15 [5].

Notes

  1. ^ The difference between Moscow Time and Greenwich Mean Time (GMT).

References