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@FilmorBroadcast{NettoCele:2021:NeFoVi,
         datereleased = "18-22 Oct. 2021",
             director = "Netto, Luiz Felipe and Celes, Waldemar",
             keywords = "cutaway, focus+context, scientific visualization, GPU rendering, 
                         reservoir model.",
                  ibi = "8JMKD3MGPEW34M/45CUMEL",
                  url = "http://urlib.net/ibi/8JMKD3MGPEW34M/45CUMEL",
       seriesdirector = "Paiva, Afonso and Menotti, David and Baranoski, Gladimir V. G. and 
                         Proen{\c{c}}a, Hugo Pedro and Junior, Antonio Lopes Apolinario 
                         and Papa, Jo{\~a}o Paulo and Pagliosa, Paulo and dos Santos, 
                         Thiago Oliveira and e S{\'a}, Asla Medeiros and da Silveira, 
                         Thiago Lopes Trugillo and Brazil, Emilio Vital and Ponti, Moacir 
                         A. and Fernandes, Leandro A. F. and Avila, Sandra",
          seriestitle = "Conference on Graphics, Patterns and Images, 34 (SIBGRAPI)",
             synopsis = "In this paper, we propose a new visualization technique to inspect 
                         simulated black oil reservoir models. Numerical reservoir 
                         simulation is widely used in the oil \& gas industry to predict 
                         and plan the exploration of petroleum fields. Of particular 
                         interest, it is crucial to understand the physical phenomena 
                         around injector and producer wells: how is the distribution of 
                         pressure, how oil/gas/water saturation varies over time, and 
                         others. Traditional visualization techniques only provide local 
                         insights, being hard to understand the three-dimension physical 
                         behavior. Another challenge is to handle today's massive models. 
                         We propose an efficient and effective focus+context visualization 
                         technique employing a cutaway approach, having the wells as 
                         objects of interest. We explore cone-shaped and box-shaped 
                         view-dependent cutting surfaces. We also allow the user to control 
                         the cutting surface aperture freely and to freeze the cut to gain 
                         motion parallax depth cues during model exploration. The proposed 
                         rendering algorithm runs on GPU, delivering real-time frame rate 
                         even for large reservoir models.",
           targetfile = "cutaway_video.mp4",
                title = "A New Focus+Context Visualization Technique for Inspecting Black 
                         Oil Reservoir Models",
         yearreleased = "2021",
        urlaccessdate = "2024, Apr. 27"
}

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