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Wide Area RTK (WARTK): Difference between revisions
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{{Article Infobox2 | {{Article Infobox2 | ||
|Category=Fundamentals | |Category=Fundamentals | ||
|Authors=GMV | |Authors=GMV | ||
|Level=Basic | |Level=Basic | ||
|YearOfPublication=2011 | |YearOfPublication=2011 | ||
|Logo=GMV | |Logo=GMV | ||
|Title={{PAGENAME}} | |||
}} | }} | ||
In [[Real Time Kinematics|Real Time Kinematics (RTK)]], the assumption that the differential ionospheric delay between a GNSS transmitter and each of the roving or reference receivers is negligible works well for baselines up to 10-20 kilometers. A refinement of this assumption comes with the network RTK (NRTK) using a set of permanent receivers to mitigate atmospheric dependent effects over distance, increasing the allowed distance between baselines and rovers up to 50-70 kms. In the late 1990s, the '''Wide Area RTK''' concept was introduced by the [http://www.gage.es/ Research Group of Astronomy and Geomatics (gAGE)] from the Technical University of Catalonia (UPC) to address these deficiencies. | |||
In [[ | |||
==Wide-Area Real-Time Kinematics (WARTK)== | ==Wide-Area Real-Time Kinematics (WARTK)== | ||
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The following articles include further information about different important topics related to a WARTK: | The following articles include further information about different important topics related to a WARTK: | ||
* [[ | * [[WARTK Fundamentals|WARTK Fundamentals]] introduces the recently-developed WARTK technique. | ||
* The [[ | * The [[WARTK Standards|WARTK Standards]] article summarizes some conventions, models and formats commonly used by WARTK. | ||
* [[ | * [[WARTK Systems|WARTK Systems]] sections provide an overview of the potential WARTK systems and applications. | ||
==Notes== | ==Notes== | ||
Revision as of 18:03, 8 November 2011
| Fundamentals | |
|---|---|
| Title | Wide Area RTK (WARTK) |
| Author(s) | GMV |
| Level | Basic |
| Year of Publication | 2011 |
In Real Time Kinematics (RTK), the assumption that the differential ionospheric delay between a GNSS transmitter and each of the roving or reference receivers is negligible works well for baselines up to 10-20 kilometers. A refinement of this assumption comes with the network RTK (NRTK) using a set of permanent receivers to mitigate atmospheric dependent effects over distance, increasing the allowed distance between baselines and rovers up to 50-70 kms. In the late 1990s, the Wide Area RTK concept was introduced by the Research Group of Astronomy and Geomatics (gAGE) from the Technical University of Catalonia (UPC) to address these deficiencies.
Wide-Area Real-Time Kinematics (WARTK)
During the last few years, the group gAGE/UPC has developed the so-called Wide-Area Real-Time Kinematics (WARTK) technique, which allows the extension of local services based on the real-time carrier phase ambiguity resolution to wide-area scale (i.e. baselines between the rover and reference stations greater than 100 km), for both dual-frequency (GPS) and 3-frequency systems (Galileo and modernized GPS). The Wide-Area Real-Time Kinematics (WARTK) technique for dual and 3-frequency systems are based on an optimal combination of accurate ionospheric and geodetic models in a permanent reference stations network. The main factor limiting the range extension of the RTK technique beyond a few tens of kilometers is the differential ionospheric correction between the roving and the nearest reference GNSS station. Such ionospheric correction prevents the real-time ambiguity fixing, and therefore the corresponding accurate navigation at sub-decimeter level. The ionosphere produces ambiguity biases and correlations whose mitigation becomes the main problem to sort out. Even with the aid of multi-reference-station techniques, due to the baseline limitation (<20 km), several thousands would be required to cover such a service to the whole European region, obviously unaffordable from a logistic and economic point of view.
The main techniques supporting WARTK are related to an accurate real-time computation of ionospheric corrections, combined with an optimal processing of GNSS observables (carrier phases in particular) in both 2 and 3-frequency systems. The method increases the RTK/NRTK service area, with permanent stations separated by up to 500–900 kilometers — all while requiring 100 to 1,000 times fewer receivers covering a given region.[1][2]
Although its feasibility has been demonstrated with real data, no WARTK operational system has been deployed so far.
WARTK Related Articles
The following articles include further information about different important topics related to a WARTK:
- WARTK Fundamentals introduces the recently-developed WARTK technique.
- The WARTK Standards article summarizes some conventions, models and formats commonly used by WARTK.
- WARTK Systems sections provide an overview of the potential WARTK systems and applications.
Notes
References
- ^ Hernández-Pajares et al, Feasibility Study of a European Wide Area Real Time Kinematic System, invited talk in 4th ESA Workshop on Satellite Navigation User Equipment Technologies (Navitec), ESTEC, Noordwijk, The Netherlands, December 2008
- ^ WARTK-EGAL Project