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==GLONASS Availability== | ==GLONASS Availability== | ||
The low number of operational satellites in the constellation (in 2001 there were only seven satellites) along with a ground segment limited to Russian territory, have been the main reasons of [[:Category:GLONASS|GLONASS]] poor availability performance. The modernization of the [[GLONASS Ground Segment|Ground Segment]], including new monitoring stations (some of them outside Russia) and especially the increase of the number of satellites in the constellation (in the present, [[:Category:GLONASS|GLONASS]] constellation consists of | The low number of operational satellites in the constellation (in 2001 there were only seven satellites) along with a ground segment limited to Russian territory, have been the main reasons of [[:Category:GLONASS|GLONASS]] poor availability performance. The modernization of the [[GLONASS Ground Segment|Ground Segment]], including new monitoring stations (some of them outside Russia) and especially the increase of the number of satellites in the constellation (in the present, [[:Category:GLONASS|GLONASS]] constellation consists of 31 satellites in orbit although only 23 of them are operational), have led to almost worldwide coverage and 100% availability in the Russian territory. | ||
The table included below shows the increasing of the number of satellites and the availability performance (calculated as the percentage of time during which the condition PDOP ≤ 6 is valid at mask angles ≥ 5 deg) from the beginning of 2007 to | The table included below shows the increasing of the number of satellites and the availability performance (calculated as the percentage of time during which the condition PDOP ≤ 6 is valid at mask angles ≥ 5 deg) from the beginning of 2007 to January 2012.<ref>[http://www.glonass-center.ru/en/archive/ Information-Analytical Centre, Archive]</ref> | ||
{| class="wikitable" | {| class="wikitable" | ||
!rowspan="1"|Date | !rowspan="1"|Date | ||
Line 25: | Line 25: | ||
!rowspan="1" Width = "150px"|Integral Availability on Russian territory | !rowspan="1" Width = "150px"|Integral Availability on Russian territory | ||
|- | |- | ||
!align="center"| | !align="center"|2012/01/23 | ||
|align="center"|23 | |align="center"|23 | ||
|align="center"|99. | |align="center"|99.9 % | ||
|align="center"|100 % | |||
|- | |||
!align="center"|2012/01/01 | |||
|align="center"|24 | |||
|align="center"|100 % | |||
|align="center"|100 % | |align="center"|100 % | ||
|- | |- | ||
Line 58: | Line 63: | ||
==GLONASS accuracy== | ==GLONASS accuracy== | ||
One of the main objectives of the Global Navigation System (GNS) is to ensure [[:Category:GLONASS|GLONASS]] performance similar to [[:Category:GPS|GPS]] by the end of 2011. GLONASS traditional poorer performance was the culmination of several factors, such as, poor on board atomic clocks or less accuracy in GLONASS broadcast ephemeris.<ref name="GlonassFuture_InsideGNSS">[http://www.insidegnss.com/node/591 Russia Dwells on Glonass Future, InsideGNSS]</ref> | One of the main objectives of the Global Navigation System (GNS) is to ensure [[:Category:GLONASS|GLONASS]] performance similar to [[:Category:GPS|GPS]] by the end of 2011. GLONASS traditional poorer performance was the culmination of several factors, such as, poor on board atomic clocks or less accuracy in GLONASS broadcast ephemeris.<ref name="GlonassFuture_InsideGNSS">[http://www.insidegnss.com/node/591 Russia Dwells on Glonass Future, InsideGNSS]</ref> | ||
The improvements carried out on the space, ground-based and user equipment segments have paid off, increasing five times the accuracy of [[:Category:GLONASS|GLONASS]] in the last years.<ref name="Modernization_Revnivykh">[http://www.navcen.uscg.gov/pdf/cgsicMeetings/50/%5B3%5DCGSIC_GLONASS_Revnivykh_20_09_2010.pdf GLONASS Status and Progress, Sergey Revnivykh]</ref> As it is shown in the figure below, in 2006 GLONASS accuracy at 1 sigma was in the order of 25 m, and | The improvements carried out on the space, ground-based and user equipment segments have paid off, increasing five times the accuracy of [[:Category:GLONASS|GLONASS]] in the last years.<ref name="Modernization_Revnivykh">[http://www.navcen.uscg.gov/pdf/cgsicMeetings/50/%5B3%5DCGSIC_GLONASS_Revnivykh_20_09_2010.pdf GLONASS Status and Progress, Sergey Revnivykh]</ref> As it is shown in the figure below, in 2006 GLONASS accuracy at 1 sigma was in the order of 25 m, and currently (January 2012), the accuracy of GLONASS is in the range of 6 meters, around twice the GPS one. | ||
Furthermore, as stated by Anatoly Shilov at the 5th international forum on satellite navigation, the accuracy of the Russian navigation system is expected to be improved to 2-3 meters in the following years. | Furthermore, as stated by Anatoly Shilov at the 5th international forum on satellite navigation, the accuracy of the Russian navigation system is expected to be improved to 2-3 meters in the following years. | ||
Line 92: | Line 97: | ||
|- | |- | ||
!Bellinsgauzen | !Bellinsgauzen | ||
|align="center"| | |align="center"|4.80 | ||
|align="center"| | |align="center"|2.69 | ||
|align="center"|5. | |align="center"|5.23 | ||
|align="center"|2. | |align="center"|2.29 | ||
|align="center"| | |align="center"|11.44 | ||
|align="center"| | |align="center"|6.26 | ||
|align="center"|8 | |align="center"|8 | ||
|align="center"|19 | |align="center"|19 | ||
|- | |||
!Gelendzhik | |||
|align="center"|5.60 | |||
|align="center"|2.83 | |||
|align="center"|6.28 | |||
|align="center"|2.60 | |||
|align="center"|14.08 | |||
|align="center"|6.86 | |||
|align="center"|8 | |||
|align="center"|18 | |||
|- | |- | ||
!Irkutsk | !Irkutsk | ||
|align="center"| | |align="center"|6.35 | ||
|align="center"| | |align="center"|3.08 | ||
|align="center"| | |align="center"|6.39 | ||
|align="center"|2. | |align="center"|2.86 | ||
|align="center"|10. | |align="center"|10.52 | ||
|align="center"|5. | |align="center"|5.98 | ||
|align="center"|8 | |align="center"|8 | ||
|align="center"|19 | |align="center"|19 | ||
|- | |- | ||
!Kamchatka | !Kamchatka | ||
|align="center"| | |align="center"|5.73 | ||
|align="center"|3. | |align="center"|3.03 | ||
|align="center"|5. | |align="center"|5.25 | ||
|align="center"|2. | |align="center"|2.40 | ||
|align="center"|12. | |align="center"|12.72 | ||
|align="center"|6.07 | |||
|align="center"|8 | |||
|align="center"| | |||
|align="center"| | |||
|align="center"|18 | |align="center"|18 | ||
|} | |} |
Revision as of 15:02, 24 January 2012
GLONASS | |
---|---|
Title | GLONASS Performances |
Author(s) | GMV |
Level | Basic |
Year of Publication | 2011 |
Equivalent to the Standard Positioning Service (SPS) and the Precise Positioning Service (PPS) of GPS, GLONASS provides a standard precision (SP) navigation signal and a high precision (HP) navigation signal, also referred to as Channel of Standard Accuracy (CSA) and Channel of High Accuracy (CHA), respectively.
However, as in GPS there is Standard Positioning Service Performance and the Precise Positioning Standard, in GLONASS there is no document specifying the performances provided by each service. According to Sergey Revnivykh, the deputy head of the GLONASS Mission Control Center, a GLONASS performance document will be released in the 2012-2013 time frame.[1]
It has been stated[2] that at peak efficiency, the SP signal offers horizontal positioning accuracy within 5–10 meters, vertical positioning within 15 meters, a velocity vector measuring within 10 cm/s, and timing within 200 ns. However these specifications are outdated, based on the performances provided by GLONASS in the year 2000, before starting the Modernization Plan.
Currently, accuracy comparisons provided by the Russian System of Differential Correction and Monitoring,[3] show that GLONASS is slightly less accurate than GPS.
GLONASS Availability
The low number of operational satellites in the constellation (in 2001 there were only seven satellites) along with a ground segment limited to Russian territory, have been the main reasons of GLONASS poor availability performance. The modernization of the Ground Segment, including new monitoring stations (some of them outside Russia) and especially the increase of the number of satellites in the constellation (in the present, GLONASS constellation consists of 31 satellites in orbit although only 23 of them are operational), have led to almost worldwide coverage and 100% availability in the Russian territory.
The table included below shows the increasing of the number of satellites and the availability performance (calculated as the percentage of time during which the condition PDOP ≤ 6 is valid at mask angles ≥ 5 deg) from the beginning of 2007 to January 2012.[4]
Date | Operational Satellites in constellation | Integral Availability Global | Integral Availability on Russian territory |
---|---|---|---|
2012/01/23 | 23 | 99.9 % | 100 % |
2012/01/01 | 24 | 100 % | 100 % |
2011/01/01 | 22 | 99 % | 100 % |
2010/01/01 | 15 | 73.6 % | 85.3 % |
2009/01/01 | 16 | 87.4 % | 96.6 % |
2008/01/01 | 12 | 48 % | 57.6 % |
2007/01/01 | 9 | 19.2 % | 26.3 % |
GLONASS accuracy
One of the main objectives of the Global Navigation System (GNS) is to ensure GLONASS performance similar to GPS by the end of 2011. GLONASS traditional poorer performance was the culmination of several factors, such as, poor on board atomic clocks or less accuracy in GLONASS broadcast ephemeris.[5] The improvements carried out on the space, ground-based and user equipment segments have paid off, increasing five times the accuracy of GLONASS in the last years.[6] As it is shown in the figure below, in 2006 GLONASS accuracy at 1 sigma was in the order of 25 m, and currently (January 2012), the accuracy of GLONASS is in the range of 6 meters, around twice the GPS one.
Furthermore, as stated by Anatoly Shilov at the 5th international forum on satellite navigation, the accuracy of the Russian navigation system is expected to be improved to 2-3 meters in the following years.
Combined Services Performances
By combining GLONASS with other GNSS systems, such as GPS, GALILEO, COMPASS, SBAS and GBAS, improved performance in the following domains can be expected:
- Availability: Using as an example GLONASS in combination with GPS, the number of operational satellites will increase from 8-9 satellites to 18-19 (as it is shown in the table below). This is especially important in urban canyon environments, where the presence of large buildings leads to frequent shadowing of signal and the combination of GLONASS and GPS improves the accuracy and availability.
- Position Accuracy: Allied to an increased availability in restricted environments (urban) is a better geometry of spacecraft or enhanced positioning performance.
- Integrity: GNSS based integrity systems and techniques, such as SBAS, RAIM and GBAS, would benefit from the addition of new constellations, including GLONASS, in terms of lower achievable protection levels and/or integrity risk.
- Redundancy: Safety of Life applications require a full backup solution to be protected in the situation where the primary system fails. The combination of independent systems will lead to the required level of redundancy.
For example, the following table compares the error of navigation definition (percentile 95%) provided by GLONASS only solution and GLONASS in combination with GPS, as well as the number of satellites in view:[7]
Station | Error of navigation def. (p=0,95) | Mean number of NSV | ||||||
---|---|---|---|---|---|---|---|---|
latitude (m) | longitude (m) | altitude (m) | ||||||
GLONASS | GLONASS+GPS | GLONASS | GLONASS+GPS | GLONASS | GLONASS+GPS | GLONASS | GLONASS+GPS | |
Bellinsgauzen | 4.80 | 2.69 | 5.23 | 2.29 | 11.44 | 6.26 | 8 | 19 |
Gelendzhik | 5.60 | 2.83 | 6.28 | 2.60 | 14.08 | 6.86 | 8 | 18 |
Irkutsk | 6.35 | 3.08 | 6.39 | 2.86 | 10.52 | 5.98 | 8 | 19 |
Kamchatka | 5.73 | 3.03 | 5.25 | 2.40 | 12.72 | 6.07 | 8 | 18 |
Notes
References
- ^ GLONASS Update Delves into Constellation Details, GPSWorld
- ^ "A Review of GLONASS" Miller, 2000
- ^ Russian System of Differentional Correction and Monitoring
- ^ Information-Analytical Centre, Archive
- ^ Russia Dwells on Glonass Future, InsideGNSS
- ^ GLONASS Status and Progress, Sergey Revnivykh
- ^ Precision of GLONASS/GPS Navigation Definitions, SDCM