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Cycle-Slips Detection with three-frequency signals: Difference between revisions
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|Authors=J. Sanz Subirana, J.M. Juan Zornoza and M. Hernández-Pajares, Technical University of Catalonia, Spain. | |||
|Level=Basic | |||
|YearOfPublication=2011 | |||
|Title={{PAGENAME}} | |Title={{PAGENAME}} | ||
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The cycle-slip detection reliability can be significantly improved with three-frequency signals. Indeed, on one hand the Extra-wide-lane combination provides a several meters wavelength that dramatically improves the sensibility of this code-based detector, overcoming most of the problems mentioned in the article [[Detector based in code and carrier phase data: The Melbourne-Wübbena combination]]. On the other hand, two independent geometry free combinations are possible to generate, which allow to relay the detection in carrier-phase data detectors as those described in article [[Detector based in carrier phase data: The geometry-free combination]] | The cycle-slip detection reliability can be significantly improved with three-frequency signals. Indeed, on one hand the Extra-wide-lane combination provides a several meters wavelength that dramatically improves the sensibility of this code-based detector, overcoming most of the problems mentioned in the article [[Detector based in code and carrier phase data: The Melbourne-Wübbena combination]]. On the other hand, two independent geometry free combinations are possible to generate, which allow to relay the detection in carrier-phase data detectors as those described in article [[Detector based in carrier phase data: The geometry-free combination]] | ||
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[[Category:GNSS Measurements and Data Preprocessing]] | |||
Latest revision as of 11:26, 23 February 2012
| Fundamentals | |
|---|---|
| Title | Cycle-Slips Detection with three-frequency signals |
| Author(s) | J. Sanz Subirana, J.M. Juan Zornoza and M. Hernández-Pajares, Technical University of Catalonia, Spain. |
| Level | Basic |
| Year of Publication | 2011 |
The cycle-slip detection reliability can be significantly improved with three-frequency signals. Indeed, on one hand the Extra-wide-lane combination provides a several meters wavelength that dramatically improves the sensibility of this code-based detector, overcoming most of the problems mentioned in the article Detector based in code and carrier phase data: The Melbourne-Wübbena combination. On the other hand, two independent geometry free combinations are possible to generate, which allow to relay the detection in carrier-phase data detectors as those described in article Detector based in carrier phase data: The geometry-free combination
Thence, a simple scheme can based in the following elements: (1) Two carrier-phase based detectors for two independent geometry free combinations. (2) A Melbourne-Wübbena detector using the extra-wide-lane combination.