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@InProceedings{LintyRCDBCFWLRCCA:2016:DeCaSt,
               author = "Linty, Nicola and Romero, Rodrigo and Cristodaro, Calogero and 
                         Dovis, Fabio and Bavaro, Michele and Curran, James T. and 
                         Fortuny-Guasch, Joaquim and Ward, Jonathan and Lamprecht, Gert and 
                         Riley, Padraig and Cilliers, Pierre and Correia, Em{\'{\i}}lia 
                         and Alfonsi, Lucilla",
          affiliation = "{Politecnico di Torino} and {Politecnico di Torino} and 
                         {Politecnico di Torino} and {Politecnico di Torino} and {Institute 
                         of the Protection and Security of the Citizen} and {Institute of 
                         the Protection and Security of the Citizen} and {Institute of the 
                         Protection and Security of the Citizen} and {SANSA Space Science} 
                         and {SANSA Space Science} and {SANSA Space Science} and {SANSA 
                         Space Science} and {Instituto Nacional de Pesquisas Espaciais 
                         (INPE)} and {Istituto Nazionale de Geofisica e Vulcanologia 
                         (INGV)}",
                title = "Ionospheric scintillation threats to GNSS in polar regions: the 
                         DemoGRAPE case study in Antarctica",
            booktitle = "Proceedings...",
                 year = "2016",
         organization = "European Navigation Conference (ENC)",
             keywords = "GNSS, Antarctica, DemoGrape, ionosphere, scintillation.",
             abstract = "This paper addresses the design and implementation of an 
                         Ionospheric Scintillation Monitoring Receiver based on the 
                         Software Defined Radio paradigm. The monitoring platform exploits 
                         a digital data grabber and a GNSS fully software receiver, which 
                         grants a high level of flexibility for the processing strategy and 
                         the storage of raw samples of the signals in case of meaningful 
                         scintillation events. Such an implementation approach yields 
                         valuable advantages in critical areas, such as polar regions, 
                         where resources are limited and installation or maintenance and 
                         replacement of GNSS receivers may be critical. The paper describes 
                         the successful installations of the platforms in two Antarctic 
                         stations, providing results at the same quality level of 
                         professional GNSS receivers used for ionospheric scintillation 
                         monitoring.",
  conference-location = "Helsinki, Finlandia",
      conference-year = "30 May - 02 June",
                label = "lattes: 1272123236892781 12 LintyRCDBCFWLRCCA:2016:DeCaSt",
             language = "en",
        urlaccessdate = "24 nov. 2020"
}


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