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Erschienen in:
Performance Analysis of BDS-3 Klobuchar Model Kapitel lesen Erstes Kapitel lesen

2024 | OriginalPaper | Buchkapitel

An Improved Method for PPP Time Transfer with Forecast Clock Model and Performance Evaluation

verfasst von : Jinyang Han, Jie Zhang, Shiming Zhong, Runmin Lu, Bibo Peng

Erschienen in: China Satellite Navigation Conference (CSNC 2024) Proceedings

Verlag: Springer Nature Singapore

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Abstract

In traditional PPP time transfer, the receiver clock offset is estimated as white noise (WN) and the atomic clock frequency characteristics are ignored, which is challenging to meet the needs of current high precision time-frequency users. To improve the accuracy and frequency stability of the current PPP time transfer method, a PPP time transfer based on the forecast clock (FC) model is proposed in this paper. Relevant experiments were conducted for the model and the experimental results showed that: (1) The selection of sliding window size in the FC model is recommended to be set between 0.5 and 1 h. (2) The time transfer accuracy and frequency stability of the FC model are both improved compared to the WN model. For time transfer accuracy, the FC model is more than 20% better than the WN model; For frequency stability, the FC model not only improves up to 54% compared to the WN model but also improves more than 8% overall, and the short-term and long-term stability is better than IGS final products.

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Vorheriges Kapitel Research on Time Transfer Method Based on Un-Differenced Combination Model Between Stations
Nächstes Kapitel Research on PPP Time Transfer Method Based on Observable-Specific Signal Bias
Literatur
1.
Allan DW, Weiss MA (1980) Accurate time and frequency transfer during common-view of a GPS satellite. In: Proceedings of the 34th Annual symposium on frequency control, F 1980
2.
Petit G, Meynadier F, Harmegnies A, et al. (2022) Continuous IPPP links for UTC. Metrologia 59(4)
3.
Petit G, Jiang Z (2007) Precise point positioning for TAI computation. In: Proceedings of the IEEE International frequency control symposium
4.
Petit G (2009) The TAIPPP pilot experiment; proceedings of the frequency control symposium. In: 2009 Joint with the 22nd European frequency and time forum ieee international
5.
Petit G, Defraigne P (2016) The performance of GPS time and frequency transfer: comment on ‘A detailed comparison of two continuous GPS carrier-phase time transfer techniques. Metrologia 53(3):1003–1008CrossRef
6.
Petit G, Harmegnies A, Mercier F et al. (2011) The time stability of PPP links for TAI. In: proceedings of the IEEE
7.
Lyu D, Zeng F, Ouyang X et al. (2019) Enhancing multi-GNSS time and frequency transfer using a refined stochastic model of a receiver clock. Meas Sci Technol 30(12)
8.
Yu H, Hao J, Liu We, Tian Y, Deng K (2016) A time transfer algorithm of precise point positioning with additional atomic clock physical model. Acta Geod Cartogr Sin 45(11):1285–1292
9.
Ge Y, Zhou F, Liu T, et al. (2018) Enhancing real-time precise point positioning time and frequency transfer with receiver clock modeling. GPS Solut 23(1)
10.
Leick A, Rapoport L, Tatarnikov D (2015) GPS satellite surveying. John Wiley & Sons
11.
Kouba J, HéROUX P (2001) Precise point positioning using IGS orbit and clock products. GPS Solut 5(2):12–28sCrossRef
12.
Han J, Zhang J, Zhong, Wang S, SM (2021) Study on the influence of differential code bias on PPP timing precision. Navig Position Timing 8(6):131–137
13.
Allan DW (1987) Time and frequency(time-domain) characterization, estimation, and prediction of precision clocks and oscillators. IEEE Trans Ultrason Ferroelectr Freq Control 34(6):647–654CrossRef
14.
Wang K, Rothacher M (2013) Stochastic modeling of high-stability ground clocks in GPS analysis. J Geodesy 87(5):427–437CrossRef
15.
Zhang X, Guo J, Hu Y, et al. (2020) Research of eliminating the day-boundary discontinuities in GNSS carrier phase time transfer through network processing. Sensors (Basel) 20(9)
Metadaten
Titel
An Improved Method for PPP Time Transfer with Forecast Clock Model and Performance Evaluation
verfasst von
Jinyang Han
Jie Zhang
Shiming Zhong
Runmin Lu
Bibo Peng
Copyright-Jahr
2024
Verlag
Springer Nature Singapore
Buch
China Satellite Navigation Conference (CSNC 2024) Proceedings

Print ISBN: 978-981-9969-43-2

Electronic ISBN: 978-981-9969-44-9

Copyright-Jahr: 2024

DOI
https://doi.org/10.1007/978-981-99-6944-9_31

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