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{{Article Infobox2
|Category=Other SBAS
|Category=Other SBAS
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|Authors=GMV
|Level=Basic
|Level=Basic
|YearOfPublication=2011
|YearOfPublication=2011
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The System for Differential Corrections and Monitoring (SDCM) is the SBAS currently being developed in the Russian Federation<ref name="SDCM_INGNSS"/> by JSC (Russian Space Systems) <ref name="SDCM_2015">[https://www.unoosa.org/documents/pdf/psa/activities/2015/RussiaGNSS/Presentations/6.pdf SDCM at Unoosa 2015]</ref> as a component of GLONASS.<ref name="SDCM_ION_2011">System for Differential Correction and Monitoring Update, Sergey KARUTIN,  Deputy head of division, Russian Space Systems, presented at ION GNSS 2011</ref>
The main differentiator of SDCM with respect to other SBAS systems is that it is conceived as an SBAS augmentation that would perform integrity monitoring of both GPS and GLONASS satellites.
==SDCM Ground Segment==
[[File:SDCM stations new.PNG|200px|SDCM planned station network|thumb]]
The main components of the SDCM Ground Segment are a network of reference stations, central processing facilities, uplink stations and terrestrial broadcast means.
The SDCM network of reference stations is composed of 19 stations in Russia and 5 stations abroad<ref name="SDCM_2015"/>. However, there are plans to expand the network to 45 stations in Russia and 12 abroad<ref name="SDCM_2019">[https://www.unoosa.org/documents/pdf/icg/2019/icg14/03.pdf SDCM at Unoosa 2019.]</ref>. The central processing facilities are located in Moscow and it is complemented by a reserve facility<ref>http://www.unoosa.org/</ref>.
In addition to the GEO broadcast, it is foreseen that SDCM provides internet and GSM broadcast from a [http://www.egnos-pro.esa.int/sisnet/index.html SISNeT] server and an NTRIP server.<ref name="SDCM_ION_2011"/>


The System for Differential Corrections and Monitoring (SDCM) is the SBAS currently being developed in the Russian Federation.  
==SDCM Space Segment==
SDCM currently uses transponders on the Luch Multifunctional Space Relay System geostationary communication satellites to transmit correction and integrity data. Data distribution is performed via L1-bandwidth according to SARPs ICAO requirements and MOPS RTCA-229. <ref name="SDCM_2015"/>
The SDCM Space Segment will be composed of 3 GEO satellites:


The main differentiator of SDCM with respect to other SBAS systems is that it is conceived as an SBAS augmentation that would perform integrity monitoring of both GPS and GLONASS satellites, whereas the rest of current SBAS initiatives provide corrections and integrity just to GPS satellites.
{| class="wikitable" align="center"
|+align="bottom" |''SDCM GEO Satellites''<ref name="SDCM_ION_2012"/><ref name="SDCM_2015"/>
! Satellite
! Location
! Launch
! Lifespan
|- align="center"
!Luch-5A
|167 deg East
|Dec 11, 2011
|10 years
|- align="center"
!Luch-5B
|16 deg West
|Nov 3,  2012
|10 years
|- align="center"
!Luch-5
|95 deg East
|2014
|10 years
|}


==SDCM Architecture and Performances==
==SDCM Objectives and Performances==
With this architecture the whole Russian Federation will be covered as the SDCM Service Area.<ref name="SDCM_Munich"> Sergey Revnivykh ([http://www.roscosmos.ru Russian Federal Space Agency]), ''GLONASS Updates'', Munich Satellite Navigation Congress, March 2011</ref>


The SDCM system will use a network of ground reference stations: around 20 stations in Russia (2 of them in the Antarctic) and 4 more stations outside Russia, including sites in Australia and South America.  There will be also a Central processing facility and up-link station.
The SDCM objectives are:<ref name="SDCM_2013"> [https://www.unoosa.org/pdf/icg/2013/icg-8/wgA/A1_2.pdf Unoosa 2013]</ref>
*SBAS L1 seamless coverage by the Russian territory
*SBAS L1 dual coverage of the central part of Russia by 2018
*Precise positioning services by SBAS L1/L5 and precise point positioning services by L1/L3 in the GLONASS band by 2018
*SDCM certification for LPV-200 requirements
*Plan to use SDCM as a basis for future precise point positioning service


The system will also count with 3 geostationary satellites, which will be launched in the coming years.  They will be an extension of the Luch communications satellite design (manufactured by Reshetnev) introduced in the 1980s as part of the Soviet Union’s communication satellite network. They will be at 16 degrees west longitude (Luch-5A), 95 degrees east (Luch-5B) and 167 degrees east (Luch-4). With this architecture the whole Russian Federation will be covered as the SDCM Service Area. <ref name="SDCM_Munich"> '''GLONASS Status Presentation''' Munich Satellite Navigation Congress, March 2011</ref>


<gallery widths="200px">
The positioning performance provided by SDCM will be of 1 to 1.5 meters in the horizontal plane and of 2 to 3 meters in vertical. In addition, it is expected to offer a cm-level positioning service for users at a range of 200 kilometers of the reference stations.<ref name="SDCM_INGNSS">Glen Gibbons, [http://www.insidegnss.com''Russia Building Out GLONASS Monitoring Network, Augmentation System''] Inside GNSS News, September/October 2009</ref>
Image:sdcm_overview.png|SDCM planned station network
</gallery>


The SDCM objectives are: <ref name="SDCM_Munich"/>
==SDCM Future and Evolutions==
*Integrity monitoring of GNSS satellites (GPS and GLONASS)
The Luch 5A was launched on December 2011 and the Luch-5B on November 2012, having reached the geostationary orbit in December 2012.
*Provide differential corrections to GLONASS satellites
* A posteriori detail analysis of GLONASS system performances.
SDCM would provide real-time differential corrections with horizontal positioning accuracy of 1–1.5 meters and vertical accuracy of 2–3 meters. A real-time precise positioning service (cm-level) would be also available within 200 kilometers around the base stations. <ref>['''Russia Building Out GLONASS Monitoring Network, Augmentation System'''] Inside GNSS News, September 2009</ref>


==SDCM Near Future==
The Luch family is expected to be replaced by "Enisey" in the scope of the SDCM evolution<ref name="SDCM_ION_2012">SDCM Program Status, Sergey KARUTIN,  Deputy head of division, Russian Space Systems, presented at ION GNSS 2012</ref>.


SDCM is expected to be certified in the coming years, as an SBAS counterpart to GPS WAAS and the European EGNOS. The SDCM certification will represent just the first step in the SDCM strategy which pursues also other broadcast means –potentially a polar MEO– with the aim of providing also a service to the North part of Russia.
SDCM system tests have been completed and system certification has been planned for 2020. Initial service will be SBAS L1 over Russian territory. L1/L5 SBAS and L1/L3 GLONASS precise point positioning service are under planning<ref name="SBAS_2020">[https://www.faa.gov/about/office_org/headquarters_offices/ato/service_units/techops/navservices/gnss/library/briefings/media/SBAS_Global_Status_Feb_2020.pptx Global SBAS Status (FAA)]</ref>.


==Notes==
==Notes==
<references group="footnotes"/>
<references group="footnotes"/>
This article has been updated by GMV based on public information according to the references.


==References==
==References==

Revision as of 08:56, 22 September 2021


Other SBASOther SBAS
Title SDCM
Edited by GMV
Level Basic
Year of Publication 2011
Logo GMV.png

The System for Differential Corrections and Monitoring (SDCM) is the SBAS currently being developed in the Russian Federation[1] by JSC (Russian Space Systems) [2] as a component of GLONASS.[3]

The main differentiator of SDCM with respect to other SBAS systems is that it is conceived as an SBAS augmentation that would perform integrity monitoring of both GPS and GLONASS satellites.

SDCM Ground Segment

SDCM planned station network

The main components of the SDCM Ground Segment are a network of reference stations, central processing facilities, uplink stations and terrestrial broadcast means.

The SDCM network of reference stations is composed of 19 stations in Russia and 5 stations abroad[2]. However, there are plans to expand the network to 45 stations in Russia and 12 abroad[4]. The central processing facilities are located in Moscow and it is complemented by a reserve facility[5].

In addition to the GEO broadcast, it is foreseen that SDCM provides internet and GSM broadcast from a SISNeT server and an NTRIP server.[3]

SDCM Space Segment

SDCM currently uses transponders on the Luch Multifunctional Space Relay System geostationary communication satellites to transmit correction and integrity data. Data distribution is performed via L1-bandwidth according to SARPs ICAO requirements and MOPS RTCA-229. [2] The SDCM Space Segment will be composed of 3 GEO satellites:

SDCM GEO Satellites[6][2]
Satellite Location Launch Lifespan
Luch-5A 167 deg East Dec 11, 2011 10 years
Luch-5B 16 deg West Nov 3, 2012 10 years
Luch-5 95 deg East 2014 10 years

SDCM Objectives and Performances

With this architecture the whole Russian Federation will be covered as the SDCM Service Area.[7]

The SDCM objectives are:[8]

  • SBAS L1 seamless coverage by the Russian territory
  • SBAS L1 dual coverage of the central part of Russia by 2018
  • Precise positioning services by SBAS L1/L5 and precise point positioning services by L1/L3 in the GLONASS band by 2018
  • SDCM certification for LPV-200 requirements
  • Plan to use SDCM as a basis for future precise point positioning service


The positioning performance provided by SDCM will be of 1 to 1.5 meters in the horizontal plane and of 2 to 3 meters in vertical. In addition, it is expected to offer a cm-level positioning service for users at a range of 200 kilometers of the reference stations.[1]

SDCM Future and Evolutions

The Luch 5A was launched on December 2011 and the Luch-5B on November 2012, having reached the geostationary orbit in December 2012.

The Luch family is expected to be replaced by "Enisey" in the scope of the SDCM evolution[6].

SDCM system tests have been completed and system certification has been planned for 2020. Initial service will be SBAS L1 over Russian territory. L1/L5 SBAS and L1/L3 GLONASS precise point positioning service are under planning[9].

Notes

This article has been updated by GMV based on public information according to the references.

References

  1. ^ a b Glen Gibbons, Russia Building Out GLONASS Monitoring Network, Augmentation System Inside GNSS News, September/October 2009
  2. ^ a b c d SDCM at Unoosa 2015
  3. ^ a b System for Differential Correction and Monitoring Update, Sergey KARUTIN, Deputy head of division, Russian Space Systems, presented at ION GNSS 2011
  4. ^ SDCM at Unoosa 2019.
  5. ^ http://www.unoosa.org/
  6. ^ a b SDCM Program Status, Sergey KARUTIN, Deputy head of division, Russian Space Systems, presented at ION GNSS 2012
  7. ^ Sergey Revnivykh (Russian Federal Space Agency), GLONASS Updates, Munich Satellite Navigation Congress, March 2011
  8. ^ Unoosa 2013
  9. ^ Global SBAS Status (FAA)
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