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@InProceedings{MantovaniDSMMCMPMFDDCMS:2016:NACUDe,
               author = "Mantovani, Lorenzzo Quevedo and Dal Piaz, Marco Antonio Laurindo 
                         and Slongo, Artur Gustavo and Marques, Rodrigo Passos and Muller, 
                         Alex and Costa, Leonardo Zavareze da and Moro, Pietro Fernando and 
                         Piovesan, T{\'a}lis and M{\^a}nica, Thales Ramos and Farias, 
                         Tiago Travis and Dutra, Viktor Leon Bizarro and Dur{\~a}o, 
                         Ot{\'a}vio Santos Cupertino and Caetano, Nattan Roberto and 
                         Machado, Renato and Schuch, Nelson Jorge",
          affiliation = "{Instituto Nacional de Pesquisas Espaciais (INPE)} and {} and {} 
                         and {} and {} and {Instituto Nacional de Pesquisas Espaciais 
                         (INPE)} and {} and {} and {} and {} and {} and {Instituto Nacional 
                         de Pesquisas Espaciais (INPE)} and {} and {} and {Instituto 
                         Nacional de Pesquisas Espaciais (INPE)}",
                title = "Applicable solution for optimizing critical points on nanosatelite 
                         missions - NANOSATC-BR, CUBESATS development program",
                 year = "2016",
         organization = "Latin American IAA CubeSat Workshop, 2.",
             abstract = "The main goal of this paper is to show possible applicable 
                         im-provements in the milestone of nanosatellites, based on 
                         critical points that were identified in both NANOSATC-BR1 and 
                         NANOSATC-BR2 missions, reducing and optimizing them in order to 
                         enhance mission performance by lowering risks levels. To support 
                         this analysis, the PDCA Methodology is used. The V Model from 
                         System Engineering will be used in this case as well because of 
                         its architecture, which has the capability of verifying what is 
                         being built with what was defined, to guarantee that the mission 
                         stakeholders will be fulfilled. Analyzing the obtained risk 
                         analysis data, solutions are presented with the objective to 
                         reduce risks, in specified parts of nanosatellites milestone in 
                         order to get a better result with less changes. The nanosatellites 
                         analyzed are the NANOSATC-BR1 which has already completed one and 
                         a half year in operation on space - and the NANOSATC-BR2, both of 
                         them from the NANOSATC-BR - CubeSats Development Program. This 
                         Program aims to improve and capacitate building of human resource 
                         by designing, de-veloping payloads and platforms, test, launch and 
                         operate national sci-entific satellite in CubeSat standards. The 
                         Program has been designed and executed in a partnership between 
                         the Southern Regional Space Re-search Center (CRS) from the 
                         National Institute of Space for Space Re-search (INPE MCTI) and 
                         Santa Maria Space Science Laboratory (LACESM), from the Federal 
                         University of Santa Maria (UFSM).The program has aid and support 
                         from the Brazilian Space Agency (AEB).",
  conference-location = "Florian{\'o}polis, SC",
      conference-year = "28 Feb. - 02 Mar.",
           targetfile = "Mantovani.pdf",
        urlaccessdate = "24 nov. 2020"
}


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