Author:
Chen Qusen,Chen Hua,Jiang Weiping,Zhou Xiaohui,Yuan Peng
Abstract
Cycle slip detection for single frequency Global Navigation Satellite System (GNSS) data is currently mainly based on measurement modelling or prediction, which cannot be effectively performed for kinematic applications and it is difficult to detect or repair small cycle slips such as half-cycle slips. In this paper, a new method that is based on the total differential of ambiguity and Least-Squares Adjustment (LSA) for cycle slip detection and repair is introduced and validated. This method utilises only carrier-phase observations to build an ambiguity function. LSA is then conducted for detecting and repairing cycle slips, where the coordinate and cycle slips are obtained successively. The performance of this method is assessed through processing short and long baselines in static and kinematic modes and the impact of linearization and atmospheric errors are analysed at the same time under a controlled variable method. The results indicate this method is very effective and reliable in detecting and repairing multiple cycle slips, especially small cycle slips.
Publisher
Cambridge University Press (CUP)
Subject
Ocean Engineering,Oceanography
Reference26 articles.
1. Application of the wavelet transform for GPS cycle slip correction and comparison with Kalman filter;Collin;Manuscripta Geodaetica,1995
2. Precise kinematic positioning using single frequency GPS receivers and an integer ambiguity constraint
3. Roberts G. W. , Meng X.L. and Dodson A.H. (2002). Using adaptive filtering to detect multipath and cycle slips in GPS/accelerometer bridge deflection monitoring data. FIG XXII International Congress, TS6. Washington, D.C. USA, 19–26 April.
4. Carrier phase ambiguity resolution for the Global Positioning System applied to geodetic baselines up to 2000 km
5. The GFZ real-time GNSS precise positioning service system and its adaption for COMPASS
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