[Borre k., Akos D. M., Bertelsen N., Rinder P., Jensen S. H. (2007) A Software- definedGPS and Galileo Receiver: A Single-frequency Approach, Birkhauser. ]Search in Google Scholar
[Brekke, Darin W., Wilson, Derek, Brown, Andrew, (2008) Pseudolite Navigation for Rotorcraft and Ground-Based Vehicles, Proceedings of the 21st International TechnicalMeeting of the Satellite Division of The Institute of Navigation (ION GNSS 2008), Savannah, GA, September 2008, pp. 2583-2594. ]Search in Google Scholar
[Chrzanowski A., Szostak-Chrzanowski A., Bond J. (2007) Increasing public and environmentalsafety through integrated monitoring and analysis of structural and grounddeformations. Geomatics Solutions for Disaster Management, Lecture Notes in Geoinformationand Cartography, Springer Berlin Heidelberg.]Search in Google Scholar
[Dai L., Zhang J., Rizos C., Han S., Wang J.(2000) GPS and Pseudolite Integration for Deformation Monitoring Applications, Proceedings of the 10th FIG Int. Symp. onDeformation Measurements, pages 11-22. ]Search in Google Scholar
[LeMaster, E., Rock, S., Self-Calibration of Pseudolite Arrays Using Self-Differencing Transceivers, Proceedings of the Institute of Navigation GPS-99 Conference, Nashville, TN, Sept. 1549-1558. ]Search in Google Scholar
[Pany T. (2010) Navigation signal processing for GNSS software receivers, Artech House. ]Search in Google Scholar
[Progri I.F., Hill J.M., Michalson W.R. (2001) An Investigation of the Pseudolite’s Signal Structure for Indoor Applications, Proceedings of the 57th Annual Meeting of TheInstitute of Navigation, 11-13 ]Search in Google Scholar
[Rapinski J., Cellmer S., Rzepecka Z. (2012) Modified pseudo-lite/gps navigation message. The journal of navigation, doi:10.1017/S0373463312000124. 10.1017/S0373463312000124]Search in Google Scholar
[Wang, J. (2002). Applications of Pseudolites in Positioning and Navigation: Progress and Problems. Journal of Global Positioning Systems, 1(1), 48-56.10.5081/jgps.1.1.48]Search in Google Scholar