Galileo is based on time
20 February 2013
ESA is helping to set the world’s time. Ultra-accurate atomic clocks of
the Agency’s Navigation Laboratory, which will be used to assess
performance of the Galileo satnav system, have joined the global effort
setting Coordinated Universal Time down to a billionth of a second.
The replacement for Greenwich Mean Time, Coordinated Universal Time
(UTC) is part of all our daily lives: it is the timing used for
Internet, banking and aviation standards and other international
timescales, maintained by the Paris-based Bureau International de Poids
et Mesures (BIPM).
Participating measurement institutes and observatories around the globe
use collections of atomic clocks to estimate a current value for UTC.
These clock data are fed through to the BIPM to be carefully weighted
and averaged to derive a combined global value. The complexity of this
effort is such that it takes around six weeks to arrive at a definitive
final figure.
ESTEC Director Franco Ongaro has signed an agreement with BIPM to mark
the international recognition of the ESA timescale and the addition of
ESA’s atomic clock data to the UTC calculations.
“This is an independent timing capability that ESA’s Navigation
Laboratory – based in ESTEC in the Netherlands – built up to support
validation of Galileo timing performances, and before it the
experimental Galileo GIOVE satellites,” explained Pierre Waller of ESA’s
RF Payload Systems division.
Atomic clocks at ESTEC
“But it makes sense to apply it more widely, and this BIPM recognition reflects the quality of our data. Our UTC estimate – formally known as UTC (ESTEC) – is also available for projects within ESA: there are many space applications beyond just navigation, such as precision technical experiments or synchronisation of telecommunications and deep-space ground stations.
“Incidentally, it is important to note that our contribution to UTC does not replace the existing input from the Netherlands’ own national timing metrology institute, Van Swinden Laboratories (VSL) in Delft. Instead we are adding to it, for enhanced global accuracy overall.”
Galileo
Matching the receiver and satellite clocks then multiplying the time taken by the speed of light gives the range between the user and the satellite. This allows the receiver to fix its longitude, latitude and time when in contact with four or more satellites. Atomic clocks on each satellite keep time to a matter of nanoseconds – billionths of a second – synchronised by a worldwide ground network.
Galileo runs on ‘Galileo System Time’ (GST), which will be calculated by
two Galileo Precise Timing Facilities equipped with active hydrogen
masers and caesium atomic clocks in the system’s twin control centres,
Fucino in Italy and Oberpfaffenhofen in Germany.
“UTC is the basis for legal time,” added Galileo’s Alexander Mudrak. “GST is derived independently of UTC but will be kept close to it. Galileo will also disseminate the offset between GST and UTC in its navigation message. Close GST–UTC agreement also ensures Galileo and GPS are interoperable.”
“In addition, Galileo will become an important source of precise time measurement in its own right, in addition to its navigation function, in the same way GPS is now.”
ESTEC’s Navigation Lab is fitted with caesium and also active hydrogen
maser atomic clocks – an order of magnitude more accurate than the
passive hydrogen masers aboard each Galileo satellite, themselves
accurate to one second in three million years.
To ensure their stable running, the clocks are maintained in a carefully controlled environment with conditioned power and a continuous generator back-up.
“UTC is the basis for legal time,” added Galileo’s Alexander Mudrak. “GST is derived independently of UTC but will be kept close to it. Galileo will also disseminate the offset between GST and UTC in its navigation message. Close GST–UTC agreement also ensures Galileo and GPS are interoperable.”
“In addition, Galileo will become an important source of precise time measurement in its own right, in addition to its navigation function, in the same way GPS is now.”
For now, the current four Galileo satellites broadcast dummy navigation signals with no time data during testing.
That will change later this year, when all four satellites are operational and GST begins to be available to users. From then on ESA’s Navigation Lab will play an important role independently validating Galileo timing performance.
That will change later this year, when all four satellites are operational and GST begins to be available to users. From then on ESA’s Navigation Lab will play an important role independently validating Galileo timing performance.
ESTEC
To ensure their stable running, the clocks are maintained in a carefully controlled environment with conditioned power and a continuous generator back-up.
ESA
Guillermo Gonzalo Sánchez Achutegui
ayabaca@gmail.com
ayabaca@hotmail.com
ayabaca@yahoo.com
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