[Ashtech and Spectra Precision Terrasat GmbH Germany, (1998). Ashtech Office Suite for Survey, User's Manual, USA.]Search in Google Scholar
[Euler H.J., Keenan C.R., Zebhauser B.E., Wübbena G. (2001). Study of Simplified Approach in Utilizing Information from Permanent Reference Station Arrays, Paper presented at ION GPS 2001, Salt Lake City, Utach, pp. 379-391.]Search in Google Scholar
[Fotopoulos G., Cannon M.E. (2001). An Overview of Multi-Reference Station Methods for Cm-Level Positioning, GPS Solutions, Vol. 4, No. 3, pp. 1-10.]Search in Google Scholar
[Grejner-Brzezińska D.A. Kashani I., Wielgosz P. (2005). On accuracy and reliability of instantaneous network RTK as a function of network geometry, station separation, and data processing strategies, GPS Solution, Vol. 9, N. 3, pp. 212-225.10.1007/s10291-005-0130-1]Search in Google Scholar
[Kryński J., Rogowski J.B., Zieliński J.B. (2003). National Report of Poland to EUREF 2003, EUREF Symposium of the IAG Subcommission for Eurpoe (EUREF) held in Toledo, Spain, 4-7 June 2003, EUREF publication No 12, Mitteilungen des Bundesamtes für Kartographie und Geodäsie, Band 33, Frankfurt am Main. Pp. 264-268.]Search in Google Scholar
[Lachapelle G., Alves P., Fortes L.P., Cannon M.E., Townsend B. (2000): DGPS RTK Positioning Using a Reference Network, Proceedings of GPS2000 (Session C3, Salt Lake City, 19-22 September), The Institute of Navigation, Alexandria, VA, pp. 1165-1171.]Search in Google Scholar
[Lachapelle G., Alves P. (2002): Multiple Reference Station Approach: Overview and Current Research, Journal of Global Positioning Systems, Vol. 1, No 2, pp 133-136.]Search in Google Scholar
[Landau H., Vollath U., Chen X. (2002). Virtual Reference Stations Systems, Journal of Global Positioning Systems, Vol. 1, No 2, pp 137-143.]Search in Google Scholar
[Raquet J. (1997). A New Approach to GPS Carrier Phase Ambiguity Resolution Using a Reference Receiver Network, Proceedings of National Technical Meeting, Santa Monica, January 14-16), The Institute of Navigation, Alexandria, VA, pp. 357-366.]Search in Google Scholar
[Raquet J. (1999). Development of a Method for Kinematic GPS Carrier Phase Ambiguity Resolution Using Multiple Reference Receiver, UCGE No 20116, (PhD thesis).]Search in Google Scholar
[Rizos C. (2002). Network RTK Research and Implementation - A Geodetic Perspective, Journal of Global Positioning Systems, Vol. 1, No 2, pp 144-150.]Search in Google Scholar
[Wanninger L. (1995). Improved Ambiguity Resolution by Regional Differential Modelling of the Ionosphere, Proceedings of ION GPS-95, Palm Springs, Sep. 12-15, pp 55-62.]Search in Google Scholar
[Wanninger L. (1997). Real-Time Differential GPS-Error Modelling in Regional Reference Station Networks in: Brunner, F.K. (Hg.): Advances in Positioning and Reference Frames, Proceedings of the IAG Scientific Assembly, Rio de Janeiro, Brazil, pp. 86-92.]Search in Google Scholar
[Wanninger L. (1999). The Performance of Virtual Reference Stations in Active Geodetic GPS-Networks under Solar Maximum Conditions, Proc. of ION GPS 99, Nashville TN, pp. 1419-1427.]Search in Google Scholar
[Wanninger L. (2002). Virtual Reference Stations for Centimeter-Level Kinematic Positioning, Proc. of ION GPS 02, Portland, Oregon, pp. 1400-1407.]Search in Google Scholar
[Wanninger L. (2004). Ionospheric Disturbance Indices for RTK and Network RTK Positioning, Proc. of ION GNSS 2004, Long Beach, CA, pp. 2849-2854]Search in Google Scholar
[Wübbena G., Bagge A., Seeber G., Böder V., Hankemeier P. (1996). Reducing Distance Dependent Errors for Real-Time Precise DGPS Applications by Establishing Reference Station Networks, Proceedings of the International Technical Meeting, ION GPS-96, Kansas City, Missouri, pp. 1845-1852.]Search in Google Scholar
[Xu G. (2002). A General Criterion of Integer Ambiguity Search, Journal of Global Positioning Systems, Vol. 1, No 2, pp 122-131.]Search in Google Scholar
