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GLONASS Future and Evolutions
GLONASS | |
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Title | GLONASS Future and Evolutions |
Edited by | GMV |
Level | Basic |
Year of Publication | 2011 |
The Government of the Russian Federation, acknowledging that navigation satellite system GLONASS was a top priority, approved by its Decree No. 587 of 20 August 2001, a Federal Task Program on the Global Navigation System (GNS) [1]. The GNS Program aims at improving both the space, ground-based and user equipment segments of the GLONASS system. Actually the program aims at ensuring that GLONASS performances are similar to those of GPS. The fact that GLONASS performances are worse than those of GPS are due to several factors, including the performances of the on-board atomic clocks, the number of satellites in the constellation and the fact that ground segment monitoring and control was limited to the Russian territory. By 2010, GLONASS reached full coverage in Russian territory and in 2011 full operational capability with the full orbital constellation of 24 satellites. GLONASS had a 347 billion ruble (US$11.81) budget approved through 2020, by which time the system is scheduled to have all satellites transmitting both the new CDMA and legacy FDMA signals[2].
Signal Modernization
Traditionally, GLONASS satellites transmit navigational radio signals on two frequency sub-bands (L1 ~ 1602 MHz and L2 ~ 1246 MHz), relying on the Frequency Division Multiple Access (FDMA) technique in contrast to CDMA employed by all the other GNSS systems.
Aiming to provide better accuracy, multipath resistance and especially, greater interoperability with GPS and future GALILEO and other GNSS Systems, new GLONASS-K satellites will transmit CDMA signals in addition to the system’s traditional FDMA. In fact, since the successful launch of the first GLONASS K1 satellite, [3] a new L3 CDMA signal is already being transmitting and tracked by several receiver companies. The GLONASS L3 signal is centered at 1207.14 MHz, the same frequency as Galileo/COMPASS signal E5b, in the region allocated to the Aeronautical Radio 1 Navigation Service (ARNS). These bands are especially suitable for Safety-of-Life applications because no other users are allowed to interfere with their signals.
The future GLONASS K2 satellites to be launched in 2014, will feature four additional CDMA signals along the original FDMA signals. Two of them are obfuscated signals located at 1242 MHz (L2 band) and 1575.42 MHz (L1 band) for military uses and the other two are open signals located at 1575.42 MHz (L1 band) and 1207.14 MHz (L3 band) for civil uses.[4]
A modernized GLONASS-K satellite, GLONASS-KM, for launch after 2015 [5] may also transmit on the L5 frequency at 1176.45 MHz, the same as the modernized GPS signal L5 and Galileo signal E5a.
Space Segment
GLONASS Space Segment modernization, began with the second generation of satellites, GLONASS-M. Reserved bytes in the navigation message were used to provide the divergence of GPS and GLONASS time scales, the navigation frame authenticity (validity) flags, and age of data information.[6] New filters allowed the reduction of out-of-band emissions and on-board clock stability over 24 hours was improved from 5x10-13 to 1x10-13.
The first satellite of the third generation, GLONASS-K1, was launched on February 26 2011. GLONASS-K1 satellites have a 10-year design life and carry a CDMA civil signal at L3 frequency in the 1205 MHz band.
A completely new design, GLONASS-K2, will start launching in 2014. GLONASS-K2 satellites will have a 10-year design life and a clock stability of ~5-1x10-14. In addition to CDMA signals on L3, CDMA signals will also be transmitted on L1 and L2. The GLONASS-K satellites will transmit both legacy FDMA and CDMA signals[4].
As reported in [6], a modernized GLONASS-K satellite (GLONASS-KM) could transmit (no sooner than 2015) legacy FDMA signals on L1 and L2 and CDMA signals on L1, L2, and L3. It could also transmit CDMA signals on the GPS L5 frequency at 1176.45 MHz. GNSS integrity information could also be broadcast in the third civil signal and global differential ephemeris and time corrections.
Also being studied is an alternative to the present three-plane, equally spaced satellite constellation, which would also require the legacy FDMA signals be switched off.[5]
Ground Segment
Fifteen new reference statiosn will be added, six of them outside the Russian territory, being the first one already placed in Antarctica.[7]
Also, the developments of both the GLONASS tracking capabilities as well as the steady increase in the number of GLONASS satellites, has had a positive influence on the accuracy of the GLONASS orbits and clocks. For instance, according to the GPSWorld article “Innovation: GPS, GLONASS, and More”[8] in 2008, the orbit quality, was at the 120-millimeter level (cross-track), which was improved significantly to the 85-millimeter level by the end of 2009.
Aiming to improve the interoperability with other GNSS systems, GLONASS coordinate system has been tied to the International Terrestrial Reference System (ITR), an international standard. The ephemeris information implementing the PZ-90.02 reference system was updated on all operational GLONASS satellites from 12:00 to 17:00 UTC, September 20th, 2007. From this time on, the satellites are broadcasting in the PZ-90.02. This ECEF reference frame is an updated version of PZ-90, closest to the ITRF2000.
User Segment
Although the GLONASS constellation is nearing global coverage, its commercialization, especially development of the user segment, has been lacking compared to the U.S. GPS system.[9] To improve the situation, the Russian government has been actively promoting GLONASS for civilian use. According to the Decree of the Government of Russian Federation “About use of GLONASS in technical system and transport vehicles”, August 25 2008, N 641, [10] GLONASS devices should be used in:
- All spacecrafts and separate components of them;
- All civilian and experimental aircrafts;
- All river- and see-going vessels;
- All railway and road vehicles for cargo- and passenger transportation;
- All vehicles for transport of dangerous payload;
- All surveying and map-making equipment;
- All devices for time synchronization;
GLONASS will be used for road tax collection and roadside assistance. Vehicles sold in Russian Federation (starting from 2013) will feature a tracking system (known as ERA-GLONASS project) that will act as a black box device with the capability of alerting Emergency Centers in the event of an accident providing the precise position of the vehicle in question. This is expected to reduce emergency arrivel times by 30% on average. Please refer to [11] for further information.
Notes
References
- ^ Federal Task Program on the Global Navigation System
- ^ Munich Summit Charts Progress of GPS, GLONASS, Galileo, Beidou GNSSes, InsideGNSS, March 2012
- ^ Russia’s First GLONASS-K In Orbit, CDMA Signals Coming, insideGNSS
- ^ a b GLONASS Status and Modernization
- ^ a b GLONASS Update Delves into Constellation Details, GPSworld
- ^ a b GLONASS: The Once and Future GNSS, InsideGNSS
- ^ GLONASS Up to Date and Out of State, GPSWorld
- ^ Innovation: GPS, GLONASS, and More, GPSWorld
- ^ GLONASS on Wikipedia
- ^ GOVERNMENT OF THE RUSSIAN FEDERATION, Decree of 25 August 2008, N 641
- ^ NIS-GLONASS, ERA project