[1. Ali, Q., Montenegro, S. (2014), A Matlab Implementation of Differential GPS for Low-cost GPS Receivers, TransNav, 8(3), 343-350.10.12716/1001.08.03.03]Search in Google Scholar
[2. Baroni, L., Kuga H. K. (2005), Analysis of navigational algorithms for a real time differential GPS system, 18th International Congress of Mechanical Engineering, November 6-11, 2005, Ouro Preto, Brazil.]Search in Google Scholar
[3. Ciećko, A., Grunwald, G., Kaźmierczak, R., Grzegorzewski, M., Ćwiklak, J., Oszczak, S., Bakuła M. (2014), Analysis of the accuracy and availability of ASG-EUPOS services in air navigation and transport, Logistyka, 3, 1091-1100. (in Polish)]Search in Google Scholar
[4. Ciećko, A., Grzegorzewski, M., Oszczak, S., Ćwiklak, J., Grunwald, G., Balint, J., Szabo, S. (2016), Examination of EGNOS Safety-Of-Life service in Eastern Slovakia, Annual of Navigation, 22/2015, 65-67.10.1515/aon-2015-0021]Search in Google Scholar
[5. Eggleston, B., McKinney, W. D., Choi, N. S., Min D. (2002), A low cost flight test instrumentation package for flight airplanes, 23rd Congress of International Council of the Aeronautical Sciences, 8-13 September, 2002, Toronto, Canada, Paper ICAS 2002-5.2.2.]Search in Google Scholar
[6. Gianniou, M., Groten E. (1996), An advanced real-time algorithm for code and phase DGPS, Paper presented at DSNS’96 Conference, St. Petersburg, Russia, May 20-24.]Search in Google Scholar
[7. Grzegorzewski, M. (2005), Navigating an aircraft by means of a position potential in three dimensional space, Annual of Navigation, 9, 26-27.]Search in Google Scholar
[8. Grzegorzewski, M., Ciećko, A., Oszczak, S., Popielarczyk, D. (2008), Autonomous and EGNOS Positioning Accuracy Determination of Cessna Aircraft on the Edge of EGNOS Coverage, Proceedings of the 2008 National Technical Meeting of The Institute of Navigation, San Diego, CA, January 2008, 407-410.]Search in Google Scholar
[9. Grzegorzewski, M., Jaruszewski, W., Fellner, A., Oszczak, S., Wasilewski, A., Rzepecka, Z., Kapcia, J., Popławski T. (1999), Preliminary results of DGPS/DGLONASS aircraft positioning in flight approaches and landings, Annual of Navigation, 1, 41-53.]Search in Google Scholar
[10. Hejmanowska, B., Rodolphe, P., Oszczak, S., Ciećko A. (2005), Validation of methods for measurement of land parcel areas, Draft final report, AGH University of Science and Technology.]Search in Google Scholar
[11. ICAO (2006), “ICAO standards and recommended practices (SARPS), annex 10 volume I (radio navigation aids)”, available at: www.ulc.gov.pl/pl/prawo/prawo-mi%C4%99dzynarodowe/206-konwencje, current version on date: 15 October 2018, (in Polish).]Search in Google Scholar
[12. Kaźmierczak, R., Grunwald, G., Bakuła, M. (2011), The use of RTCM 2.X Dekoder Software for Analyses of KODGIS and NAWGIS Services of the ASG-EUPOS System, Technical Sciences, 14(2), 229-243.]Search in Google Scholar
[13. Kim, J., Song, J., No, H., Han, D., Kim, D., Park, B., Kee, C. (2017), Accuracy Improvement of DGPS for Low-Cost Single-Frequency Receiver Using Modified Flächen Korrektur parameter Correction, ISPRS Int. J. Geo-Inf., 6, 222.]Search in Google Scholar
[14. Krasuski, K. (2017), Application the GPS code observations in BSSD method for recovery the position of the aircraft, Journal of Automation, Mobile Robotics & Inteligent Systems, 11(3), 45-52.10.14313/JAMRIS_3-2017/27]Search in Google Scholar
[15. Krasuski, K., Ćwiklak, J., Grzesik, N. (2018), Accuracy assessment of aircraft positioning by using the DGLONASS method in GBAS system, Journal of KONBIN, 45, 97-124.10.2478/jok-2018-0006]Search in Google Scholar
[16. Krasuski, K., Wierzbicki, D., Jafernik H. (2018), Utilization PPP method in aircraft positioning in post-processing mode, Aircraft Engineering and Aerospace Technology, 90(1), 202-209.10.1108/AEAT-05-2016-0078]Search in Google Scholar
[17. Rodríguez-Bilbao, I., Radicella, S. M., Rodríguez-Caderot, G., Herraiz M. (2015), Precise point positioning performance in the presence of the 28 October 2003 sudden increase in total electron content, Space Weather, 13, 698–708.10.1002/2015SW001201]Search in Google Scholar
[18. Sabatini, R., Palmerini, G. B. (2008), Differential Global Positioning System (DGPS) for Flight Testing, ISBN 978-92-837-0041-8, RTO AGARDograph 160 Flight Test Instrumentation Series – Volume 21, Chapter 6 – DGPS PERFORMANCE ANALYSIS.]Search in Google Scholar
[19. Tajima, H., Asakura, M. (2002), Flight Experiments of DGPS Approaches and Landings on a Megafloat Airport Model, Transactions Of The Japan Society For Aeronautical And Space Sciences, 45 (147), 66-68.10.2322/tjsass.45.66]Search in Google Scholar
[20. Tsai, Y-J. (1999), Wide Area Differential operation of the Global Positioning System: ephemeris and clock algorithms, PhD thesis, Stanford University, 110-112.]Search in Google Scholar
[21. URL1. (2019), https://www.google.pl/maps/, current on 2019.]Search in Google Scholar