[Cellmer S., Wielgosz P., Rzepecka Z. (2010) Modified ambiguity function approach for GPS carrier phase positioning. Journal of Geodesy, vol. 84, 264-275.10.1007/s00190-009-0364-8]Search in Google Scholar
[Cellmer S. (2011a) The real time precise positioning using MAFA method, The 8th International Conference ENVIRONMENTAL ENGINEERING, selected papers, vol. III, Vilnius, s.1310-1314]Search in Google Scholar
[Cellmer S. (2011b), A Graphic Representation of the Necessary Condition for the MAFA Method. Transactions on Geoscience and Remote Sensing, vol. PP Isssue: 99, 1-7.]Search in Google Scholar
[Cellmer S. and Wielgosz P. (2011) "GNSS Carrier Phase Processing Using Modified Ambiguity Function Approach", Florence, Italy, May 27-30 2009, EUREF Publication, Mitteilungen des Bundesamtes für Kartographie und Geodäsie (Submitted for publication), on line available http://www.epncb.oma.be/_newsmails/papers/eurefsymposium2009/gnss_carrier_phase_processing_using_modified_ambiguity_function.pdf http://www.epncb.oma.be/_newsmails/papers/eurefsymposium2009/gnss_carrier_phase_processing_using_modified_ambiguity_function.pdf]Search in Google Scholar
[Chang X-W, Yang X, Zhou T. (2005) MLAMBDA: a modified LAMBDA method for integer least-squares estimation, Journal of Geodesy 79, 552-565.10.1007/s00190-005-0004-x]Search in Google Scholar
[Cocard M., Bourgon S. Kamali O., Collins P. (2008) A systematic investigation of optimal carrier-phase combinations for modernized triple-frequency GPS", Journal of Geodesy vol. 82, 555-564.]Search in Google Scholar
[Dach R, Hugentobler U, Fridez P, Meindl M (2007) BERNESE GPS Software Version 5.0. Astronomical Institute, University of Berne.]Search in Google Scholar
[Glenn J., Svedensen G. 2006. Some properties of decorrelation techniques in the ambiguity space GPS Solution vol. 10, 40-44.]Search in Google Scholar
[Hassibi A. and Boyd S. (1998) Integer parameter estimation in linear models with application to GPS. IEEE Trans SignallProc 46, 2938-295210.1109/78.726808]Search in Google Scholar
[Hofmann-Wellenhof B, Lichtenegger H, Wasle E. (2008) GNSS-Global Navigation Satellite Systems - GPS, GLONASS, Galileo & more. Springer-Verlag Wien.]Search in Google Scholar
[Han S, Rizos C. (1996) Improving the computational efficiency of the ambiguity function algorithm. Journal of Geodesy 70, 330-341.10.1007/BF00868185]Search in Google Scholar
[Jonge P. de., Tiberius Ch. (1996) The LAMBDA method for integer ambiguity estimation: implementation aspects Delft Geodetic Computing Centre LGR Series.]Search in Google Scholar
[Jung J. and Enge P. (2000) Optimization of Cascade Integer Resolution with Three Civil GPS Frequencies In Proc. ION GPS'2000, Salt Lake City, September]Search in Google Scholar
[Leick A. (2004) GPS Satellite Surveying. 3rd edition, John Wiley and Sons, Inc.]Search in Google Scholar
[Liu L. T., Hsu H. T., Zhu Y. Z., Ou J. K. (1999) A new approach to GPS ambiguity decorrelation Journal of Geodesy vol. 73, 478-490.]Search in Google Scholar
[Teunissen P J G. (1995) The least-squares ambiguity decorrelation adjustment: a method for fast GPS integer ambiguity estimation Journal of Geodesy 70, 65-82.10.1007/BF00863419]Search in Google Scholar
[Teunissen P J G, and Kleusberg A. (1998) GPS for Geodesy, Springer — Verlag, Berlin Heidelberg New York.10.1007/978-3-642-72011-6]Search in Google Scholar
[Urquhart, L. (2009) An Analysis of Multi-Frequency Carrier Phase Linear Combinations for GNSS. Senior technical report, Department of Geodesy and Geomatics Engineering Technical Report No. 263, University of New Brunswick, Fredericton, New Brunswick, Canada.]Search in Google Scholar
[Xu PL (2001) Random simulation and GPS decorrelation. Journal of Geodesy 75:408-42310.1007/s001900100192]Search in Google Scholar