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Category:EGNOS Signal Structure: Difference between revisions

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===Description===
===Description===
The EGNOS Signal In Space format is compliant with the ICAO SARPs for SBAS. The EGNOS SIS interface characteristics comprise carrier and modulation radio frequency, message structure, protocol and content of the EGNOS message.


The EGNOS signal is broadcast by two Inmarsat-3 satellites – one positioned east of the Atlantic, and the other above Africa – and by ESA’s  Artemis satellite, which is also above Africa. These three satellites’ orbits are in the equatorial plane, at three different longitudes, with each able to broadcast EGNOS services across the whole ECAC area.<ref name=" EGNOS User Guide for Developers">[http://ec.europa.eu/enterprise/policies/satnav/egnos/files/brochures-leaflets/egnos-user-guide_en.pdf  EGNOS User Guide for Developers]</ref>
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[[File:EGNOS.png|right|150px|link=:Category:EGNOS]]
Unlike the GPS and GLONASS satellites, these three space platforms carry no signal generators. They are fitted with a transponder which does nothing more than relay the signal processed on the ground and sent into space.
 
EGNOS is fully interoperable with the GPS system, which is currently being modernized to take into account new civil signals on the L5 frequency band that GPS will be transmitting and future Galileo signals.
 
==EGNOS SIS Interface Characteristics==
 
[[File:GEO FootPrints.JPG| EGNOS CDDS : Inmarsat and Artemis EGNOS geostationary broadcast areas  |300px|thumb|right]]
 
The EGNOS Signal In Space format is compliant with the ICAO SARPs for SBAS.<ref name=" EGNOS User Guide for Developers"/> The following section provides an overview of the EGNOS SIS interface characteristics, related to carrier and modulation radio frequency. Message structure, protocol and content of the EGNOS message are detailed in the [[The EGNOS SBAS Message Format Explained | EGNOS Message Format ]] definition.
 
{| class="wikitable"
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|align="center" |Satellite || align="center" |  PRN  || align="center" |ID(NMEA) || align="center" |Position
|-
|align="center" |'''ARTEMIS''' || align="center" |  124  || align="center" |37 || align="center" |21.5E
|-
|align="center" |'''INMARSAT AOR-E''' || align="center" |  120  || align="center" |33 || align="center" |15.5W
|-
|align="center" |'''INMARSAT IOR-W''' || align="center" |  126  || align="center" |39 || align="center" |25E
|}
|}
 
[[Category:EGNOS]]
 
 
==EGNOS SIS RF Characteristics==
 
The EGNOS GEO satellites transmit right-hand circularly polarised (RHCP) signals in
the L band at 1575.42 MHz (L1). The broadcast signal is a combination of a 1023-bit
PRN navigation code of the GPS family and a 250 bits per second navigation data
message carrying the corrections and integrity data elaborated by the EGNOS ground
segment.
 
This raw navigation message is ½ convolutional encoded with Forward Error Correcting (FEC) Code resulting in a 500 symbol/second EGNOS data stream.
 
[[File:EGNOS Forward Error Correcting Code.JPG| EGNOS Forward Error Correcting (FEC) Code  |400px|thumb|center]]
 
This data stream is added modulo-2 to a 1023-bit PRN code, which will then be biphase shift-keyed (BPSK) modulated onto the L1 carrier frequency at a rate of 1.023 Mega-chips/second (Mcps). <ref name=" RTCA MOPS DO 229">Minimum Operational Performance Standards for Global Positioning System/Wide Area Augmentation System Airbone Equipment</ref>
 
The EGNOS SIS is such that, at all unobstructed locations near ground level from
which the satellite is observed at an elevation angle of 5 degrees or higher, the level of
the received RF signal at the output of a 3dBi linearly polarised antenna is within the
range of –161 dBW to –153 dBW for all antenna orientations orthogonal to the direction
of propagation. Besides, spurious transmissions will be at least 40dB below unmodulated carrier power over all frequencies.
 
It is intended that future geostationary satellites used for EGNOS replenishment will
broadcast higher minimum signal power levels in order to improve the acquisition and
tracking performance of the user receiver.
 
The most relevant EGNOS signal characteristics are detailed hereafter:<ref name=" RTCA MOPS DO 229"/>
 
* '''Carrier Phase Noise''': The phase noise spectral density of the unmodulated carrier is such that a phase locked loop of 10Hz one-sided noise bandwidth is able to track the carrier to an accuracy of 0.1 radians rms.
* '''Signal Spectrum''': The broadcast signal is at GPS L1 frequency of 1575.42 MHz. At least 95% of the broadcast power is contained within a +/- 12MHz band centered at the L1 frequency. The bandwidth of the signal transmitted by an EGNOS satellite is at least 2.2MHz.
* '''Doppler Shift''': The Doppler shift, as perceived by a stationary user, on the signal broadcast by EGNOS GEOs is less than 40 meters per second (≈210 Hz at L1) in the worst case (at the end of life of the GEOs). The Doppler shift is due to the relative motion of the GEO.
* '''Carrier Frequency Stability''': The short term stability of the carrier frequency (square root of the Allan Variance) at the input of the user´s receiver antenna will be better than 5x10-11 over 1 to 10 seconds, excluding the effects of the ionosphere and Doppler.
* '''Polarization''': The broadcast signal is right-handed circularly polarized. The ellipticity will be no worse than 2 dB for the angular range of ±9.1o  from boresight.
* '''Code/Carrier Frequency Coherence''': The lack of coherence between the broadcast carrier phase and the code phase is limited. The short term (<10 seconds) fractional frequency difference between the code phase rate and the carrier frequency is less than 5x10-11 (one sigma).
* '''Correlation Loss''': Correlation loss is defined as the ratio of output powers from a perfect correlator for two cases: 1) the actual receiver EGNOS signal correlated against a perfect unfiltered PN reference, or 2) a perfect unfiltered PN signal normalized to the same total power as the EGNOS signal in case 1, correlated against a perfect unfiltered PN reference. The correlation loss resulting from modulation imperfections and filtering inside the EGNOS satellite payload is less than 1 dB.
* '''Maximum Code Phase Deviation''': The maximum uncorrected code phase of the broadcast signal does not deviate from the equivalent EGNOS network time by more than can be accommodated by the GEO time correction provided in the GEO navigation message (±2-20 seconds). The maximum corrected code phase deviation is limited in accordance with the overall SIS performance requirements.
 
==GPS/SBAS Signal Generators==
 
A range of signal generators were developed in the GNSS Industry as a means to provide flexible platforms for the
 
These products allow to select specific navigation satellite systems, to define influencing error sources,  to choose signal frequency and modulations schemes as well as the RF Front end and filter characteristics.
 
These generators are easy to integrate on user test environments and their purpose is to evaluate acquisition and tracking algorithms or receiver HW, to design multipath and interference mitigation strategies.
 
Some of the most representative product manufacturers are Spirent<ref name=" Spirent GSS4100 Signal Generator Product Reference Sheet">[http://www.testequipmentconnection.com/specs/Spirent_GSS4100.PDF    Spirent GSS4100 Signal Generator Product Reference Sheet]</ref> and Novatel.<ref name=" Novatel GUS-Type 1 Signal Generation Product Sheet ">[http://webone.novatel.ca/assets/Documents/Papers/GUSSignalGenerator.pdf    Novatel GUS-Type 1 Signal Generation Product Sheet ]</ref>
 
==Notes==
<references group="footnotes"/>
 
==References==
<references/>
 
 
[[Category:EGNOS|Signal]]

Latest revision as of 15:54, 28 April 2011

Description

The EGNOS Signal In Space format is compliant with the ICAO SARPs for SBAS. The EGNOS SIS interface characteristics comprise carrier and modulation radio frequency, message structure, protocol and content of the EGNOS message.

EGNOS.png

Pages in category "EGNOS Signal Structure"

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