Abstract
The polynomial fitting method is used widely to detect cycle slips of carrier phases of GNSS for its easily computer programming and simple algorithm. But, this method is influenced by the observation errors and sampling rates. In this contribution, the polynomial fitting method and the Newton interpolation method are combined to solve those influences. In this paper, we introduce the new method theory and its mathematical model. Finally a test is taken to prove the reliable of the new method. The result shows that the new method does well in cycle-slips detection, and it reduces the calculation amount.
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References
Banville S (2014) Improved convergence for GNSS precise point positioning. University of New Brunswick
Zhang XH, He XY (2015) BDS triple frequency carrier-phase linear combination models and their characteristics. Sci China Earth Sci 45(5):601–610
Kezhao L, Li Y, Lin C (2014) Positioning principle of GNSS. The Press of Coal Industry, Beijing
Stienne S, Reboul B (2014) Choquel B Cycle slip detection and repair with a circular on-line change-point detector. Signal Process 100:51–63
Yang J, Li JW, Wu H (2013) Processing cycle-slip of discontinuous epoch in single-frequency GPS data. Sci Surv Mapp 38(4):59–61
Huo G, Miao L (2012) Cycle detection of GPS carrier phase with methodology of SA4 multi-wavelet transform. Chin J Aeronaut 25:227–235
Liu YH (2014) Orbit determination of spacecraft–interpolation method and fitting method of satellite coordinates. XIDIAN University, pp 29–51
Li ZH, Huang JS, Zhang Q (2013) GPS measurement. Wuhan University Press, Wuhan, pp 28–29
Yuan B, Bai Z, Fu C (2011) A new method for cycle-slip determination in single-frequency phase observation based on polynomial fitting method. Geotech Invest Surv 12:63–66
Luo F, Yao YB, Song WW (2007) Detection for cycle slips using polynomial fitting and carrier phase rate method. GNSS World China 5(3):9–13
Zhang Y The report of the experimentations of cycle-slips detection of GPS
Lin X, Jiang Y, Wen B (2015) Determination of optimal wind power acceptance level based approaching and Newton interpolation. Power Syst Protect Control 43(18):13–17
LI Z, Gao J, Wang H (2014) Inertial dynamic model of GPS/INS integrated navigation based on newton interpolation. Geomat Inf Sci Wuhan Univ 39(5):591–595
Acknowledgements
This research was funded by the National Natural Science Foundation of China (Nos. 41202245, 41272373).
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Wang, Y.K., Li, K., Zhao, L., Li, Z., Wei, J. (2016). A New Modified Method for Cycle-Slips Detection Based on Polynomial Fitting Method. In: Sun, J., Liu, J., Fan, S., Wang, F. (eds) China Satellite Navigation Conference (CSNC) 2016 Proceedings: Volume I. Lecture Notes in Electrical Engineering, vol 388. Springer, Singapore. https://doi.org/10.1007/978-981-10-0934-1_13
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DOI: https://doi.org/10.1007/978-981-10-0934-1_13
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