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GPS sidereal filtering: coordinate- and carrier-phase-level strategies

Lookup NU author(s): Ahmed Ragheb, Professor Peter Clarke, Professor Stuart Edwards

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Abstract

Multipath error is considered one of the major errors affecting GPS observations. One can benefit from the repetition of satellite geometry approximately every sidereal day, and apply filtering to help minimize this error. For GPS data at 1 s interval processed using a double-difference strategy, using the day-to-day coordinate or carrier-phase residual autocorrelation determined with a 10-h window leads to the steadiest estimates of the error-repeat lag, although a window as short as 2 h can produce an acceptable value with > 97% of the optimal lag's correlation. We conclude that although the lag may vary with time, such variation is marginal and there is little advantage in using a satellite-specific or other time-varying lag in double-difference processing. We filter the GPS data either by stacking a number of days of processed coordinate residuals using the optimum "sidereal" lag (23 h 55 m 54 s), and removing these stacked residuals from the day in question (coordinate space), or by a similar method using double-difference carrier-phase residuals (observational space). Either method results in more consistent and homogeneous set of coordinates throughout the dataset compared with unfiltered processing. Coordinate stacking reduces geometry-related repeating errors (mainly multipath) better than carrier-phase residual stacking, although the latter takes less processing time to achieve final filtered coordinates. Thus, the optimal stacking method will depend on whether coordinate precision or computational time is the over-riding criterion.


Publication metadata

Author(s): Ragheb AE, Clarke PJ, Edwards SJ

Publication type: Article

Publication status: Published

Journal: Journal of Geodesy

Year: 2007

Volume: 81

Issue: 5

Pages: 325-335

ISSN (print): 0949-7714

ISSN (electronic): 1432-1394

Publisher: Springer

URL: http://dx.doi.org/10.1007/s00190-006-0113-1

DOI: 10.1007/s00190-006-0113-1


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