Abstract
This article first introduced the architecture, data processing flow, data processing strategies and data processing results of HNCORS GNSS online differential data processing system, and then analyzed the precision, repeatability and stability of the system by processing the GNSS data of datum stations and measured stations. Finally, based on the simulation deformation monitoring experiment, the feasibility of system application in deformation monitoring was discussed in this article. The experimental results showed that the repeatability and stability of the system is high, which can provide cm or mm level positioning services for Hunan Province GNSS users. What’s more, the system has broad application prospects in deformation monitoring.
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References
Ghoddousi-Fard R, Dare P (2006) Online GPS processing services: an initial study. GPS Solutions 10(1):12–20
Guo Q (2015) Precision comparison and analysis of four online free PPP services in static positioning and tropospheric delay estimation. GPS Solutions 19(4):537–544
Dawson J, Govind R, Manning J (2001) Application of the AUSLIG online GPS processing system (AUSPOS) to Antarctica. In: Proceeding of Satnav
El-Mowafy A (2011) Analysis of web-based GNSS post-processing services for static and kinematic positioning using short data spans. Survey Rev 43(323):535–549
Rapiński J, Cellmer S (2011) Tests of selected automatic positioning systems in post-processing mode. Technical Sciences/University of Warmia and Mazury in Olsztyn, pp 45–56
Ocalan T, Erdogan B, Tunalioglu N (2013) Analysis of web-based online services for GPS relative and precise point positioning techniques. Boletim de Ciências Geodésicas 19(2):191–207
Pearson C, Crook C, Jordan A et al (2015) PositioNZ-PP: an online GPS processing application for New Zealand. IAG 150 Years. Springer, Cham, pp 549–555
Wang G, Turco M, Soler T et al (2017) Comparisons of OPUS and PPP solutions for subsidence monitoring in the greater Houston area. J Survey Eng 143(4):05017005
Zhang C, Nie G, Xiong X et al (2007) Research on system for internet-based GPS data auto-processing. Bull Survey Mapp 08:26–28
Han F, Cheng CL, Wang X (2011) A study of automatic GPS data processing system based on Bernese GPS software. Bull Survey Mapp 11:8–10
Ye HC, Nie GG, Li N (2013) Data processing and re-development with Bernese software. J Geomatics 38(02):20–22
Hong W (2013) CORS-based GPS data processing web platform design and its application. Geospatial Inf 11(04):25–27
Ye HC, Nie GG, Yang JH et al (2013) Research on high-precision GPS data online processing system. Bull Survey Mapp (05):16–19
Huang C, Yang Y, Xiong WD et al (2015) Regional CORS data auto-processing system based on Bernese 5.0. J Shandong Un Sci Technol (Nat Sci) 34(05):75–81
Dach R, Lutz S, Walser P et al (2015) Bernese GNSS software version 5.2
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Foundation item: National Natural Science Foundation of China (41774040).
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Zhou, Y., Kuang, C., Dou, S., Liu, Z. (2018). Development and Assessment of GNSS Online Differential Data Processing System Based on HNCORS. In: Sun, J., Yang, C., Guo, S. (eds) China Satellite Navigation Conference (CSNC) 2018 Proceedings. CSNC 2018. Lecture Notes in Electrical Engineering, vol 497. Springer, Singapore. https://doi.org/10.1007/978-981-13-0005-9_26
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DOI: https://doi.org/10.1007/978-981-13-0005-9_26
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