GNGTS 2017 - 36° Convegno Nazionale

184 GNGTS 2017 S essione 1.2 References Cina A., GPS. Principi, modalità e tecniche di posizionamento. Vol. 1. Celid, 2000. Eyo E. E., Musa T. A., Omar K. M., Idris K. M., Bayrak T., Onuigbo I. C., Opaluwa Y. D. (2014), Application of Low- Cost GPS Tools and Techniques for Landslide Monitoring: AReview, Jurnal Teknologi (Sciences & Engineering) 71:4 (2014) 71–78; JanssenV., Rizos C. (2003),Amixed-mode GPS network processing approach for deformationmonitoring applications. Survey Review. 37(287): 2–19; Heunecke O., Glabsch J., Schuhbäck S., Landslide Monitoring Using Low Cost GNSS Equipment – Experiences from Two Alpine Testing Sites. Journal of Civil Engineering and Architecture, ISSN 1934-7359, USA, Aug. 2011, Volume 5, No. 8 (Serial No. 45), pp. 661-669; Hofmann-Wellenhof B., Lichtenegger H., Collins J. (2001), “GPS theory and practice.” Springer, New York. (2001) 978-3-211-83534-0 (ISBN); Hu G.R., Khoo H.S., Goh P.C., Law C.L. (2003), Development and assessment of GPS virtual reference stations for rtk positioning. Journal of Geodesy (2003) 77:292–302, doi:10.1007/s00190-003-0327-4; Kaplan E. D., Hegarty C. J. (1996), Understanding GPS: Principles and Applications, Edition Kaplan, Boston Artech House Publisher, 1996; Landau H., Vollath U., Chen X. (2002), Virtual reference station systems. Journal of Global Positioning Systems Vol.1, No 2:137-143; Malet J.P., Maquaire O., Calais. E. (2002), The use of Global Positioning System techniques for the continuous monitoring of landslides: application to the Super-Sauze earthflow (Alpes-de-Haute-Provence, France) Geomorphology, Volume 43, Issue 1, p. 33-54, doi:10.1016/S0169-555X(01)00098-8; O’Keefe K. (09,10/2016), Single versus multiple: how frequencies make a difference in gnss receivers, InsideGNSS, Volume 11 Number 4, September/October 2016; Squarzoni C., Delacourt C., Allemand P. (2005), Differential single-frequency GPS monitoring of the La Valette landslide (French Alps). Engineering Geology. 79(3–4) : 215–229; Zuliani D., Fabris P., Rossi G. (2018), FReDNet: Evolution of a Permanent GNSS Receiver System. In: Cefalo R., Zieliński J., BarbarellaM. (eds) NewAdvancedGNSS and 3DSpatial Techniques. LectureNotes inGeoinformation and Cartography. Springer, Cham, First Online: 08 July 2017 DOI: 10.1007/978-3-319-56218-6_10; Zuliani D., Ponton C. (2017), Master Thesis “Organizzazione e gestione di un progetto per lo sviluppo di un prototipo GNSS cost-effective per applicazioni topografiche e monitoraggio strutturale LZER0” at the “Politecnico di Milano Graduate School of Business MIP” (Master in Management of Research, Innovation and Technology Master MIT IV edizione); Zuliani D, Fabris P, Del Negro E, Bertoni M, Durì G (2016) Il sistema di monitoraggio GNSS di Esri Italia SENDAS: il case history della frana di Tolmezzo (UD), Conferenza Esri Italia, pp 20–21 Aprile 2016 Roma, doi: 10.13140/ RG.2.1.3782.6966.