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GLONASS: Status and Perspectives

Learn about the latest updates on GLONASS, the Russian satellite navigation system, including state policy, system status, modernization plans, and international cooperation efforts. Discover the key principles guiding GLONASS service provision and the collaborative approach with GPS and GALILEO systems. Get insights into the GLONASS constellation status, control segment operations, satellite performance, and upcoming developments, such as the modernization of GLONASS services for enhanced accuracy and reliability.

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GLONASS: Status and Perspectives

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  1. GLONASS: Status and Perspectives Civil GPS Service Interface Committee International Information Subcommittee Prague, 14-15 March, 2005 ________________________________________________ Sergey Revnivykh Satellite Navigation Department Mission Control Center Central Research Institute of Machine Building 4 Pionerskaya st, 141070 Korolyov sergey.revnivykh@mcc.rsa.ru http://www.mcc.rsa.ru/iac.htm

  2. Overview • State Policy • System Status • Modernization • International Cooperation • Summary

  3. State Policy Principles • GLONASS is a dual-use system • Recognition of GLONASS as an strategic element of the national security issue • No direct user fees for civil GLONASS service • Open access to the GLONASS civil signal structure for user equipment manufacture, applications development and value-added services • Combine GLONASS/GPS receivers use on the Russian territory • Compatibility and interoperability of GLONASS with GPS and future GALILEO • Development of the GNSS global market

  4. GLONASS State Policy Sources • Decree of the President , 1999 • Decision of the Government, 1999 • Federal GLONASS Program for 2002-2011, approved by the Government, August 2001 • State concept of the Russian United Navigation and Time Service System, October 2004: GLONASS is a key element of the Navigation and Time Service System

  5. Federal GLONASS Program Directions • Sustainment and development of GLONASS system (Roscosmos, MOD): • Minimal operation capability (18 satellites) by 2008 • Full operation capability (24 satellites) by 2010 • Development and production preparation of the GNSS user equipment for civil and governmental users (Agency of Industry, MOD) • Combined GNSS receivers • Integrated systems based on GNSS techniques • Components manufacture • Navigation technology introduction in the transport infrastructure (Transport Agencies of MOT) • Geodesy system modernization (Mapping Agency of MOT) Combined Federal Mission Oriented Program – directly funded from the Federal Budget with annual adjustment

  6. GLONASS Program Management • Roskosmos: • GLONASS development • GLONASS augmentation development • GLONASS performance monitoring and control • MOD: • GLONASS development • GLONASS operation • User equipment development for governmental use ROSKOSMOS is The Program Coordinator

  7. Overview • State Policy • System Status • Modernization • International Cooperation • Summary

  8. GLONASS Constellation Status (05.03.2005) 14 satellites in constellation • 12 GLONASS satellites (3 years life-time): • All operational • 2 GLONASS-M satellites (7 years life-time) • Both in flight test • Next launch – end of 2005 Flight tests

  9. Constellation History and Perspective GLONASS deployment milestones: • 18 satellites in constellation – 2007 • 24 satellites in constellation – 2010-2011

  10. GLONASS Control Segment (Space Force) • GLONASS System Control Center • Krasnoznamensk, Moscow reg. • Satellite operation • OD&TS • TT&C stations • St.Petersbourg reg. • Schelkovo, Moscow reg • Yenisseysk • Komsomolsk-Amur • System clock (Central synchronizer) • Schelkovo Mission control segment development in schedule: • One-way tracking stations deployment: • Space Force sites • Rosstandard sites (Mendeleyevo, Novosibirsk, Irkutsk, Khabarovsk

  11. GLONASS Satellite Performance • Guaranteed Life-time • Satellite mass • Power supply • Navigation payload • Mass • Power consumption • Clock stability (24 hours) • Attitude control accuracy • Solar panel pointing accuracy 3 years 1 415 kg 1 000 W 180 kg 600 W 5*10-13 0.5 deg 5 deg Group launch by PROTON Total launched 81 satellites Actual life-time 4.5 years

  12. GLONASS-M Performance • Guaranteed Life-time • Satellite mass • Power supply • Navigation payload • Mass • Power consumption • Clock stability (24 hours) • Attitude control accuracy • Solar panel pointing accuracy 7 years 1 415 kg 1 450 W 250 kg 580 W 1*10-13 0.5 deg 2 deg GLONASS-M new features: • Extended life-time • L2 civil signal • Improved clock stability • Improved solar panel pointing • Improved dynamic model, less level of unpredicted accelerations Group launch by PROTON

  13. GLONASS Availability Evolution 12/2001: 6 SV, A=17 gap = 13.7h 12/2002: 8 SV, A=22 gap = 9.3h 12/2003: 9 SV, A=35 gap = 9.0h Since 2001 the gap in navigation reduced from 14 to 3 hours 12/2004: 11 SV, A=58 gap = 4.6h 03/2005: 13 SV, A=76 gap = 2.9h 12/2007: 18 SV, A=96 gap = 0.6h

  14. Overview • State Policy • System Status • Modernization • International Cooperation • Summary

  15. GLONASS Service Modernization • Second civil signal at L2 frequency band since GLONASS-M in 2003for higher accuracy • Third civil signal at L3 frequency band since GLONASS-K in 2008 for higher reliability and accuracy, especially for safety-of-life applications • GNSS Integrity information in the third civil signal (GLONASS-K) – reliability of navigation service • Global differential ephemeris and time corrections in the third civil signal (GLONASS-K) – sub meter real time accuracy for mobile users • Search and Rescue service (extension of COSPAS/SARSAT service) – shortening time of precise positioning and rescue for people in distress

  16. GLONASS Modernization Plan GLONASS 1982-2007 GLONASS-M 2003-2015 GLONASS-K 2008-2025 GLONASS-KM 2015-….. Requirement definition since 2002 г. DeveloperNPO PM D&D phase To be orderedup to 27 SV Life-time 10 years 3rd civil signal Developer NPO PM ProducerPO “Polyot” Total launched 81 SV Ordered1SV In orbit12SV Life-time3years DeveloperNPO PM Producer NPO PM Ordered8SV In orbit 2 SV To be ordered6 Life-time 7 years 2nd civil signal Ground control segment modernization Navigation (OD$TS) system modernization GLONASS augmentation system implementation System certification for safety of life applications Navigation service market development Search and Rescue service implementation Supplementary functions (TBD)

  17. GLONASS-K Performance • Guaranteed Life-time • Satellite mass • Power supply • Navigation payload • Mass • Power consumption • Clock stability (24 hours) • Attitude control accuracy • Solar panel pointing accuracy 10 years 850 kg 1 270 W 260 kg 750 W 1*10-13 0.5 deg 1 deg GLONASS-K new features: • Extended life-time • L3 civil signal • Improved performance • SAR function Group launch by SOYUZ

  18. GLONASS Signals fk1=f01+k×Df1 fk2=f02+k×Df2 fk3=fk1*3/4 f01=1602 MHz; Df1= 562,5 kHz f02=1246 MHz; Df2= 437,5 kHz

  19. GLONASS Augmentation Development Operation since 2008 GEO GLONASS-K L3 signal National GLONASS/GPS Tracking Stations Network Uplink stations Data Processing and Analysis Center Global IGS Network Positioning in real time: Global <1 m Regional <5 cm • Integrity information • Global Orbit and Time Corrections

  20. GLONASS Performance Monitoring and Control • Central Research Institute of ROSKOSMOS (Information Analytical Navigation Center) to fit-back for GLONASS Control Segment • Daily ephemeris and clock correction evaluation • Data of global IGS network in use • Driver for GLONASS performance improvement Orbit error in range (12.02.2005) SISRE GPS GLONASS GPS GLONASS

  21. Overview • State Policy • System Status • Modernization • International Cooperation • Summary

  22. General Goal • Benefit users by the reliable, accurate and with high availability navigation service • Developing GLONASS to provide compatibility and interoperability with existing and future systems • Beneficial use of GNSS service in the world market • Standards consolidation • Frequency protection • Joint development of user equipment and augmentations

  23. Russia - EU • Negotiation process resumed • Consultations on the EU-Russia GALILEO/GLONASS Agreement – text to be consolidated soon • Technical group to find solutions for compatibility and interoperability • Signal compatibility and interoperability at L3/E5b • Time scale shift transmission • GLONASS geodesy reference to be adjusted to ITRF • Russian industry involvement into GALILEO development • SOYUZ launch service for GSTB-V2a • NII PP laser reflectors delivered for GSTB-V2a/b • Involvement to the H-maser development • Russian industry involvement in FP-6

  24. Russia - India • Agreement signed in December 2004 • Civil GLONASS service covering • Participation of India in the GLONASS constellation sustainment (including launches of GLONASS-M satellites with India’s GSLV rocket) • Cooperation in ground GNSS infrastructure development

  25. Russia - US • GPS/GLONASS full compatibility provided by design for existing signals • Joint statement signed in December 2004: • No direct user fees for civil GLONASS/GPS service confirmed • Cooperation at International organizations • Ensure compatibility and interoperability • SAR function implementation • Agreement preparation

  26. GPS/GLONASS Combine Use Benefits Advantage of Positioning Availability for Urban and Canyon Conditions (GDOP<5, mask angle 25o) GPS+GLONASS (9 sats) GPS only GPS+GLONASS (12 sats) Number of satellites in view for Moscow region during a day GPS+GLONASS (9 sats) GPS+GLONASS (18 sats) GPS only

  27. Overview • State Policy • System Status • Modernization • International Cooperation • Summary

  28. Summary • GLONASS is existing and developing system • GLONASS significance as an element of the national security issue recognized • Performance improvement is in schedule of Federal GLONASS Program • Both compatibility and interoperability of the existing and future systems is the strategic way ahead

  29. Спасибо за внимание!

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