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GIOVE-A
navigation signal available to users
Artist's
impression of GIOVE-A in orbit. The spacecraft's navigation
signal antenna is directed towards the viewer.
Credits:
ESA
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2 March 2007
The
GIOVE-A Signal-in-Space Interface Control Document, the document
that gives the technical details of the signals transmitted by
the GIOVE-A satellite, has been released. This will allow
receiver manufacturers and research institutions to use a real
signal for their research and development.
Following the
launch of GIOVE-A on 28 December 2005 from the Baikonur
Cosmodrome and the transmission of the first Galileo signals from
medium Earth orbit on 12 January 2006, ESA and Surrey
Satellite Technology Limited (SSTL � United Kingdom) have
completed the GIOVE-A in-orbit validation activities.
The
GIOVE-A signal validation has been accomplished through a network
of 13 Galileo Experimental Sensor Stations (GESS), deployed world
wide, and a GIOVE Processing Centre which computes precise orbits
and clock timings for the GIOVE satellites, based on the
measurements made by the GESS and satellite laser ranging
stations.
The
GIOVE-A Signal-in-Space Interface Control Document (SIS-ICD) is
the key document that will allow any user to build a receiver
able to track GIOVE-A signals, interpret the navigation message
and compute the distance between the satellite and the receiver.
Following the successfully in-orbit validation mission, ESA has
decided to release the SIS-ICD to the public to allow receiver
manufacturers and research centres to benefit from experiments
with a real Signal-in-Space for research and development
purposes.
GIOVE-A
L1 in-band spectrum, measured at Chilbolton Obervatory
(United Kingdom)
Credits:
ESA
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GIOVE-A
E5 in-band spectrum, measured at Chilbolton Obervatory
(United Kingdom)
Credits:
ESA
|
This is possible since the
nominal GIOVE-A navigation Signal-in�Space (SIS) is fully
representative of the future Galileo navigation signals, on all
three Galileo frequency bands, even though GIOVE-A uses specific
spreading codes that are different from the nominal codes of the
final Galileo constellation to allow unambiguous identification
of the spacecraft. These codes are described in the GIOVE-A
public document and with knowledge of them the GIOVE-A signals
can be used for code and carrier phase tracking in precisely the
same way the future Galileo signals will be used. All GIOVE-A
signal spectra are identical to the future Galileo navigation SIS
spectra.
The
navigation data symbol rates are identical with the nominal
Galileo data rates for all public signals, and the same
principles as in the final Galileo navigation signal are used for
message encoding. The navigation message structure of GIOVE-A is
different from the future Galileo navigation signal, but the low
level elements of the message differ only in minor details. The
content of the GIOVE-A navigation message is complete with all
ingredients such as, for example, ephemeris and clock correction,
that are needed for pseudo-range calculation and further
positioning processing, thus leading to a full set of navigation
signals.
The time for simulation is over, so the ESA
Galileo project team is putting at the disposal of the user
community the information needed to support the validation of
demanding Galileo user applications with a real satellite.
The
GIOVE-A Signal-in-Space ICD is available at the GIOVE web site:
http://www.giove.esa.int/
Source:
ESA
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