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Global Positioning System
Global Positioning System Overview
USNO GPS Data Categories Explanation
CGGTTS Data Format
USNO GPS Time Transfer
Leap Seconds
GPS Information: SA, DGPS, Leap Seconds, etc.
GPS Week Number Rollover
GPS Timing Data and Information
USNO Format Explanation
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United States Naval Observatory
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USNO GPS Time Transfer
Home
Our Commands
United States Naval Observatory
Precise Time Department
Global Positioning System
USNO GPS Time Transfer
ABOUT US
Mission & Vision
History
Naval Oceanography One Pager
End of Year Graphic 2022
LEADERSHIP
Commander
Technical Director
Command Master Chief
All Leadership
OUR COMMANDS
Naval Oceanographic Office
Fleet Numerical Meteorology & Oceanography Center
United States Naval Observatory
News from the Naval Observatory
Earth Orientation Department
Precise Time Department
The USNO Master Clock
The USNO Master Clock
Time Dissemination at the USNO
USNO Alternate Master Clock (AMC)
Cesium Atomic Clocks
Hydrogen Masers at the USNO
Rubidium Fountain Clocks
USNO Time Scales
International Time Scales and the BIPM
Definitions of Systems of Time
Global Positioning System
Global Positioning System Overview
USNO GPS Data Categories Explanation
CGGTTS Data Format
USNO GPS Time Transfer
Leap Seconds
GPS Information: SA, DGPS, Leap Seconds, etc.
GPS Week Number Rollover
GPS Timing Data and Information
USNO Format Explanation
USNO Computer Display Clocks
Two-Way Satellite Time Transfer (TWSTT)
Telephone Time
Network Time Protocol (NTP)
US Eastern Time Zone NTP Servers
US Mountain Time Zone Servers
DoD Customer Servers
Astronomical Applications Department
Celestial Reference Frame Department
Senior Enlisted Advisor
Careers at the USNO
Naval Oceanography Operations Command
Fleet Weather Center - Norfolk
National Ice Center
Fleet Weather Center - San Diego
Joint Typhoon Warning Center
Naval Oceanography Anti-Submarine Warfare Center
Navy DoD Supercomputing Resource Center
PRESS ROOM
News Stories
Photo Gallery
Video Gallery
Public Use of Limitations
CAREERS AND INTERNSHIPS
CONTACT US
USNO GPS Time Transfer
USNO monitors the timing of the GPS to provide a reliable and stable coordinated time reference for the satellite navigation system.
The USNO provides two modes of operation to monitor the GPS:
the Standard Positioning Service (SPS) and the Precise Positioning Service (PPS)
.
The USNO SPS consists of a coarse acquisition (C/A) code, single channel timing receiver and the processed data are available on the
USNO GPS timing data portal
.
Note: Many of the links on this page have been disabled until a new cloud-based hosting service can be established.
We apologize for the inconvenience this may cause.
SATELLITE CLOCKS
Each Block IIR/IIR-M satellite contains three Rubidium (Rb) atomic clocks. Each Block IIF satellite contains two Rb and one Cesium (Cs) atomic clocks. Block III satellites contain three enhanced Rb clocks and a slot for a future clock to be developed.
GPS TIME INFORMATION
GPS time is given by its
Composite Clock (CC)
. The CC or "paper" clock consists of all
Monitor Station
and satellite operational frequency standards. The system was previously referenced to one of the Monitor Station's operational frequency standards and switched from one station to another as needed. The GPS epoch is 0000 UT (midnight) on January 6, 1980. GPS time is not adjusted and therefore is offset from UTC by an integer number of seconds, due to the insertion of
leap seconds
. The number remains constant until the next leap second occurs. This offset is also given in the navigation (NAV) message and your receiver should apply the correction automatically. As of December 31st, 2016, GPS is ahead of UTC by eighteen (18) seconds. Additional leap seconds may be added; for the latest information on leap seconds, please visit the following link:
GPS Timing Data and Information
.
In addition to the leap seconds, there are additional corrections given in the NAV message. The system time, in turn, is referenced to the
Master Clock (MC)
at the USNO and steered to UTC(USNO) from which system time will not deviate by more than one microsecond (PPS requirement). The exact difference is contained in the NAV message in the form of two constants, A0 and A1, giving the time difference and rate of system time against UTC(USNO,MC). UTC(USNO) itself is kept very close to the international benchmark UTC as maintained by the
BIPM
.
A direct reference to UTC(USNO,MC)
can be made automatically by most timing receivers. These receivers can be commanded to take the two constants, A0 and A1, from the NAV message for a linear extrapolation to the USNO MC. These constants are updated with the uploads on the basis of USNO PPS monitor information. According to the
2007 PPS Performance Standard
and the
2008 SPS Performance Standard
, both the SPS user and the PPS user can obtain a time transfer accuracy to UTC(USNO) within 40 nanoseconds (ns) (95 percent). Decisions to change operational modes of GPS to include degrading GPS accuracy to civil users will be made by the National Command Authorities (NCA).
GPS TIME STEERING
GPS time is automatically steered to UTC(USNO) on a daily basis to keep system time within one microsecond of UTC(USNO), but during the last several years has been within a few hundred nanoseconds. Since March 1994, the rate of steer that was applied was +/-1.0E-19 seconds per second squared. At 2300 GPS Time, January 12th, 2011, the rate of the steer was changed to +/-5.0E-20 seconds per second squared.
USNO TIME TRANSFER DATA
The USNO monitors the timing of the GPS satellites using two types of operation: SPS and PPS. The SPS time differences published by the USNO for the GPS represent the difference between the USNO MC and the GPS CC as recovered from individual satellites and permit a user to increase the precision of timing obtained by monitoring any of these satellites. The SPS time differences are available on the
USNO Time Service data portal
.
All GPS satellites are monitored at USNO, collecting time transfer data for a track period of 780 seconds duration. The individual satellite values published are the result of a linear solution referring to the midpoint of the track period. The 13-minute track period was chosen in order to receive the entire NAV message transmitted every 12.5 minutes that includes the latest ionospheric and UTC information. The individual values are an estimate of the
difference between the USNO MC and the GPS CC (GPS time)
via the individual satellite. The RMS of the 13-minute solutions ranges between 2 to 20 nanoseconds Block II without
Selective Availability (SA)
.
When SA was implemented on the Block II constellation, the RMS ranged from 20 to 100 nanoseconds.
The actual performance of GPS time transfers can be seen in these files:
The last seven days of processed USNO GPS SPS data are available in
UNIX compressed
or
PC zipped
format.
The data format explanation can be found
here
.
The last seven days of processed USNO GPS SPS data in CGGTTS format are available in
UNIX compressed
or
PC zipped
format.
The data format explanation can be found
here
.
Daily overall values for the entire constellation are an estimate of the difference between the USNO MC and the GPS CC. These values represent a 2-day filtered linear solution and computed for zero hours UT of the second day and published daily for the preceding day. The RMS of the residuals for the
entire constellation
when SA is not implemented is around 4 to 10 nanoseconds. When SA was implemented, the RMS of the residuals ranged from 40 to 60 nanoseconds for the entire constellation.
TIME TRANSFER TECHNIQUES
Common-view
is the use of specially arranged, simultaneous view measurements, that maximize satellite elevation angles between pairs of stations. This accurate method of time transfer includes the participation of approximately 50 international laboratories. Development of the common-view schedules has been the responsibility of the
Bureau des Poids et Mesures (BIPM)
, in Sèvres, France since July 1986. The USNO's current operational GPS SPS receiver is a multi-channel receiver and does not utilize a tracking schedule. We should note that the common-view method extracts a price with a single-channel receiver. It requires a strict adherence to exactly the same simultaneous observations at both locations, a requirement which is not easy to fulfill except at measurement laboratories. The use of common-view will work if the SA does not include the degradation of the ephemerides, but will be even less robust than if SA was not applied.
The method to link the USNO MC to several remote sites is the
Precise Time Reference Station (PTRS)
. Since the common-view requires a strict adherence, we use a smoothing method of all satellite observations for the operational transfer of time to our PTRS. A filtered linear solution, based on all 13-minute satellite observations, allows an estimate of the available precision and is much less sensitive to the slow bias changes in the observation of individual satellites. This procedure has become known as the "melting-pot". The melting-pot method is probably slightly less accurate than the common-view, but is more robust and allows a definitive measure of uncertainty derived from all observations.
REFERENCES:
Time Transfer via GPS at USNO, Miranian and Klepczynski, ION GPS-91 proceed.
Time Service Information Bulletin, 16 March 1992
1996 Federal Radionavigation Plan (FRP)
2008 SPS Performance Standard
2007 PPS Performance Standard
Introduction to Robust Statistics and Data Filtering, Dr. G.M.R. Winkler, USNO 17 May 1993
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