Analyzing the Tropospheric Delay Estimates on Global Navigation Satellite Systems (GNSS) with Precise Point Positioning (PPP) Services using the goGPS software
Syachrul Arief(1*), Andrea Gatti(2)
(1) Geospatial Information Agency Indonesia (BIG)
(2) Geomatics Research and Development s.r.l. - Lomazzo, Italy
(*) Corresponding Author
Abstract
Keywords
Full Text:
PDFReferences
Blewitt, G, W C Hammond, and C Kreemer. (2018). Harnessing the GPS data explosion for interdisciplinary science. EOS 99, DOI: 10.1029/2018EO104623.
Enge, P., & Misra, P. (2001). Global Positioning System (1 ed.). Ganga-Jamuna Press.
Enge, P., & Misra, P. (2006). Global Positioning System (2 ed.). Ganga-Jamuna Press.
Gabor, M. (1997, May 5). Remote Sensing of Water Vapor from GPS Receivers. Retrieved May 16, 2016, from http://www.csr.utexas.edu/texas_pwv/midterm/gabor/gabor.html#anchor561367.
Gatti, A., Tagliaferro, G., Realini, E. (2018). goGPS free and open-source GNSS software for tropospheric delay estimation. Proceedings from the conference held 4-13 April 2018 in Vienna, Austria, p.15590
goGPS_MATLAB. (2018). goGPS MATLAB is an advanced GNSS observation processing software. goGPS-project. https://github.com/goGPS-Project/goGPS_MATLAB (accessed April 2, 2018)
Herrera, A.M., Suhandri, H.F., Realini, E. et al. goGPS: open-source MATLAB software. GPS Solut 20, 595–603 (2016). https://doi.org/10.1007/s10291-015-0469-x
K. Yedukondalu, A. S. (2011). Estimation and Mitigation of GPS Multipath Interference Using Adaptive Filtering. Progress in Electromagnetics Research M(21), 133-148.
Koning, A. (2016). Precipitable water vapor estimation using GPS in Uganda: A study on obtaining the Zenith Wet Delay. Delft, The Netherlands
Nicholas, Z. (2016, October 04). Satellite and receiver clock errors. Retrieved from Tekmon Geomatics: http://www.tekmon.eu/1-3-2-satellite-and-receiver-clock-errors/
Realini, E. (2009) goGPS free and constrained relative kinematic positioning with low-cost receivers. Ph. D.thesis,http://www.researchgate.net/publication/237520116
Realini, E., Yoshida, D., Reguzzoni, M. et al. (2012). Enhanced satellite positioning as a web service with goGPS open-source software. Appl Geomat 4, 135–142 https://doi.org/10.1007/s12518-012-0081-5
Realini, E., Caldera, S., Pertusini, L., Sampietro, D. (2017) Precise GNSS positioning using smart devices Sensors 17 (10), 2434
Tagliaferro, G., Gatti, A., Realini, E. (2019). goGPS Open Source GNSS Software for Quasi-Static Applications: Latest Developments and Performance Tests. Geophysical Research Abstracts. 2019, Vol. 21, p1-1. 1p
Yuan, Y. K.-S. (2014). Real-time retrieval of precipitable water vapor from GPS precise point positioning. Journal of geophysical research: Atmospheres
Zumberge, J. F., Heftin, M. B., Jefferson, D. C., Watkins, M. M., and Webb, F. H. (1997). Precise point positioning for the efficient and robust analysis of GPS data from large networks. J. Geophys. Res. 102, 5005–5017. DOI: 10.1029/96JB03860
DOI: https://doi.org/10.22146/jgise.56071
Article Metrics
Abstract views : 1589 | views : 2004Refbacks
- There are currently no refbacks.
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
Journal of Geospatial Information Science and Engineering (JGISE) ISSN: 2623-1182 (Online) Email: jgise.ft@ugm.ac.id The Contents of this website is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.