[Cai Ch., Gao Y. (2013). Modeling and assessment of combined GPS/GLONASS precise point positioning. GPS Solutions, 17, Issue 2, 223-236.10.1007/s10291-012-0273-9]Search in Google Scholar
[Ge L., Lee I. (2006). The performance of RTK-GPS for surveying under challenging environmental conditions. Earth, Planets and Space, 58, Issue 5, 515-522.]Search in Google Scholar
[Kowalczyk K. (2011). Analysis of the errors generated during the measurement of situational details RTK GPS method. Acta Scientiarum Polonorum Geodesia et Descriptio Terrarum, 10(1), 5-22.]Search in Google Scholar
[Krzyżek R. (2014). Reliability analysis of the results of RTN GNSS surveys of building structures using indirect methods of measurement.żGeodesy and Cartography, 63, no. 2, 161-181.10.2478/geocart-2014-0012]Search in Google Scholar
[Krzyżek R. (2013).żVerification of applicability of the Trimble RTX satellite technology with xFill function in establishing surveying control networks. Geodesy and Cartography, 62, no. 2, 217- 233.10.2478/geocart-2013-0014]Search in Google Scholar
[Krzyżek R. (2014). Precision analysis of Trimble RTX surveying technology with xFill function in the context of obtained conversion observations. Reports on Geodesy and Geoinformatics, Vol. 97, 47-70.]Search in Google Scholar
[Pirti A., Yucel M., Gumus K. (2013). Testing Real Time Kinematis GNSS (GPS and GPS/GLONASS) methods in obstructed and unobstructed sites. Geodetski Vestnik, 57, no. 3, 498-512.10.15292/geodetski-vestnik.2013.03.498-512]Search in Google Scholar
[Pirti A., Yucel M., Gumus K. (2013). Testing Real Time Kinematis GNSS (GPS and GPS/GLONASS) methods in obstructed and unobstructed sites. Geodetski Vestnik, 57, no. 3, 498-512.10.15292/geodetski-vestnik.2013.03.498-512]Search in Google Scholar