Overview of the development of global navigation satellite system

Jinsheng Ning, Yibin Yao, Xiaohong Zhang

Article ID: 1676
Vol 5, Issue 2, 2022, Article identifier:90-97

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Abstract


Global navigation satellite system and its application fields are constantly expanding and deepening. This paper mainly introduces the current situation of global satellite navigation system and its application technology, development trend and application prospect. At the same time, this paper makes a comprehensive comparison of these navigation systems, analyzes the opportunities and challenges faced by China’s BeiDou satellite navigation system in the global context, and puts forward some suggestions for future work.


Keywords


GNSS; GNSS Positioning Technology; GNSS-R Technology; GNSS Occultation Technology; Integrated Navi-Gation Technology; Multi Frequency and Multi System Joint Positioning Technology

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References


Hofmann-Wellenhof B, Lichtenegger H, Wasle E. GNSS-global navigation satellite systems: GPS, GLONASS, Galileo and more. Berlin: Springe; 2008.

Hein GW, Avila-Rodriguez JA, Wallner S, et al. Envisioning a future GNSS system of systems: Part 1. Inside GNSS 2007. 58–67.

Yang Y, Li J, Xu J, et al. Contribution of China BeiDou satellite navigation system to global PNT users. Science Bulletin 2011; 56(21): 1734–1740.

Liu J. New progress and impact of GPS modernization. Proceedings of the 10th annual meeting of China Association for global positioning system technology applications; 2008 Dec 18-20; Beijing. Beijing: China Global Positioning System Technology Application Association; 2008.

Chen J. Progress and modernization of GPS technology. Geodesy and Geodynamics 2010; 30(3): 1–4.

Fernandez-Prades C, Presti LL, Falletti E. Satellite radiolocalization from GPS to GNSS and beyond novel technologies and applications for civil mass market. Proceedings of the IEEE 2011; 99(11): 1882–1904.

Yang Y. Progress, contributions and challenges of BeiDou satellite navigation system. Journal of Surveying and Mapping 2010; 39(1): 1–6.

Ge M, Gendt G, Rothacher M, et al. Resolution of GPS carrier-phase ambiguities in precise point positioning (PPP) with daily observations. Journal of Geodesy 2007; 82(7): 389–399.

Laurichesse D, Mercier F, Berthias JP, et al. Integer ambiguity resolution on undifferenced GPS phase measurements and its application to and satellite precise orbit determination. Navigation 2009; 56(2): 135–149.

Collins P, Lahaye F, Hrous P, et al. Precise point positioning with ambiguity resolution using the decoupled clock model. Proceedings of the 21st International Technical Meeting of the Satellite Division of the Institute of Navigation (ION GNSS 2008); September 16–19, 2008; Savannah. Savan-nah, Gorgia: Savannah International Convention Center; 2008.

Zhao Y. GNSS ionospheric occultation inversion technology and its application [PhD thesis]. Wuhan: Wuhan University; 2011.

Larson KM, Small EE, Gutmann E, et al. Using GPS multipath to measure soil moisture fluctuations: Initial results. GPS Solutions 2008; 12(3): 173–177.

Larson KM, Nievinski FG. GPS snow sensing: Results from the earthscope plate boundary observatory. GPS Solutions 2013; 17(1): 41–52.

Ding J. GPS meteorology and its application. Beijing: Meteorological Publishing House; 2009.




DOI: http://dx.doi.org/10.24294/jgc.v5i2.1676

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