Publications

  • de Jonge PJ, Teunissen P J G, Jonkman NF, Joosten P (2000) The distributional dependence of the range on triple frequency GPS ambiguity resolution, pp 605-612, Proceedings of ION-NTM 2000, 26-28 January, Anaheim, CA, USA.
  • Feng Y and Rizos C (2005) Three Carrier Approaches for Future Global, Regional and Local GNSS Positioning Services: Concepts and Performance Perspectives, p2277-2787, Proceedings of ION GNSS 2005, 13-16 September, , Long Beach, CA, USA.
  • Feng, Y (2005) Future GNSS Performance, Predictions Using GPS with a Virtual Galileo Constellation, GPS World, March, 46-52.
  • Feng, Y, C Rizos, Higgins M (2007) Multiple Carrier Ambiguity Resolution and Performance Benefits for RTK and PPP Positioning Services in Regional Areas, Proceedings of ION GNSS 2007, 25-28 September 2007, Fort Worth, TX, pp668-677
  • Feng Y, C Rizos (2007), Geometry-Based TCAR Models and Performance Analysis, Accepted for publication in Volume 133 of the Springer IAG Symposia Proceedings
  • Feng Y, Moody M (2006) Improved Phase Ambiguity Resolution Using Three GNSS Signals, PCT/AU2006/000492, http://www.wipo.int/pctdb, April 2006.
  • Feng Y (2007) GNSS Three Carrier Ambiguity Resolution Using Ionosphere-reduced GNSS signals, Journal of Geodesy http://dx.doi.org/10.1007/s00190-008-0209-x
  • Fernandez-Plazaola, U, T. M. Mart?¡än-Guerrero, J. T. Entrambasaguas-Mun oz, M. Mart?n-Neira, The Null method applied to GNSS three-carrier phase ambiguity resolution, Journal of Geodesy (2004) 78: 96¨C102, DOI 10.1007/s00190-004-0376-3
  • Forssell B, Martin-Neira M, Harris R A (1997) Carrier Phase Ambiguity Resolution in GNSS-2. Proceedings of ION GPS-97, pp 1727-1736, 16-19 September. Kansas City.
  • Han S, Rizos C (1999) The Impact of Two Additional Civilian GPS Frequencies on Ambiguity Resolutions Strategies, Proceedings of ION Annual Technical Meeting, pp 315-321, 28-30 June, Cambridge, MA, USA
  • Hatch R, Jung J, Enge P, Pervan B (2000) Civilian GPS: The Benefits of Three Frequencies, GPS Solution, Vol 3, No 4, pp1-9.
  • Hatch R (2006) A New Three-Frequency, Geometry-Free Technique for Ambiguity Resolution, Proc of ION GNSS 2006, P309-316, 26-29 Sept, Fort Worth, TX.
  • Teunissen PJG, Joosten P, Tiberius C.C.J.M (1999) Geometry-free ambiguity success rates in case of partial fixing. pp 201-210. Proceedings of ION-NTM 1999, 25-27 January, San Diego, CA, USA.
  • Teuniessen PJG, Jonkman NF(2001) Will geometry-free full ambiguity resolution be possible at all for long baselines, Proceedings of ION-NTM 2001 pp271-280. 22-24 January Long Beach, CA, USA.
  • Werner W J, Winkel (2003) TCAR and MCAR Options, With Galileo and GPS, pp 201-210. Procs of ION GPS/GNSS 2003, 9 -11 September, Portland, OR, USA.
  • Vollath U, Birnbach S and Landau H (1998), Analysis of three carrier ambiguity resolution
  • (TCAR) technique for precise relative positioning in GNSS-2, Proceedings of ION GPS98, pp 417-426,September.
  • Volltah U (2004) The Factorized Multi-Carrier Ambiguity Resolution (FAMCAR) Approach for Efficient Carrier-Phase Ambiguity Estimation,Todd Richert and Dr. Naser El-Sheimy, The Impact of Future Global Navigation Satellite Systems on Precise Carrier Phase Positioning (To be provided)
  • Verhagen S (2006a). How will the new frequencies in GPS and Galileo affect carrier phase ambiguity resolution? Inside GNSS, 2.
  • Verhagen S (2006b). Improved performance of Multi-Carrier Ambiguity Resolution based on the LAMBDA method. In Proc. of Navitec 2006, ESA-ESTEC, Noordwijk NL, 8 pages.