Title :
Timekeeping at the US Naval Observatory
Author :
Matsakis, Demetrios
Author_Institution :
US Naval Obs., Washington, DC, USA
fDate :
6/1/2003 12:00:00 AM
Abstract :
No one can stop time, but time can stop a system. Users need to be aware of the different flavors of time, depending upon their needs. Most systems require that all their components be on common time (synchrony), but they cannot keep them on time unless they are also on a common frequency (syntony). Other systems simply require syntony. The US Naval Observatory (USNO) is the timing reference for GPS. Its master clock (MC) is based upon 72 HP5071 cesium and 17 hydrogen maser frequency standards in three buildings at two sites, and their data are used to generate UTC (USNO). The USNO disseminates and distributes the time not only via GPS, but also with Loran, network time protocol (NTP), and two-way-satellite time transfer (TWSTT). Our emphasis is on robustness through repeated calibration and multiplicity of systems, and we recommend this for our users as well. Further details and explanations of our services can be found on: http://tycho.usno.navy.mil, or by contacting the author directly.
Keywords :
Global Positioning System; atomic clocks; calibration; frequency standards; masers; synchronisation; time measurement; Cs; GPS timing reference; H; Loran; NTP; TWSTT; US Naval Observatory timekeeping; USNO; UTC; atomic clocks; calibration; cesium/hydrogen maser frequency standards; common frequency syntony; common time synchrony; frequency standard robustness; master clocks; network time protocols; synchronization; system multiplicity; two-way-satellite time transfer; Calibration; Clocks; Frequency synchronization; Global Positioning System; Hydrogen; Masers; Observatories; Protocols; Robustness; Timing;
Journal_Title :
Aerospace and Electronic Systems Magazine, IEEE
DOI :
10.1109/MAES.2003.1209584
