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@InProceedings{FranceschinAbraNettCele:2019:GPReAr,
               author = "Franceschin, Bernardo and Abraham, Frederico and Netto, Luiz 
                         Felipe and Celes, Waldemar",
          affiliation = "{Tecgraf/PUC-Rio Institute} and {Tecgraf/PUC-Rio Institute} and 
                         {Tecgraf/PUC-Rio Institute} and {Tecgraf/PUC-Rio Institute}",
                title = "GPU-based Rendering of Arbitrarily Complex Cutting Surfaces for 
                         Black Oil Reservoir Models",
            booktitle = "Proceedings...",
                 year = "2019",
               editor = "Oliveira, Luciano Rebou{\c{c}}as de and Sarder, Pinaki and Lage, 
                         Marcos and Sadlo, Filip",
         organization = "Conference on Graphics, Patterns and Images, 32. (SIBGRAPI)",
            publisher = "IEEE Computer Society",
              address = "Los Alamitos",
             keywords = "cutting surface, GPU rendering, scientific visualization, 
                         reservoir model.",
             abstract = "Numerical simulation of black oil reservoir models is extensively 
                         used by the oil industry to predict and plan field exploration. 
                         Such simulations produce a large amount of volume data that need 
                         to be inspected. One popular visualization technique to inspect 
                         volume data is the rendering of cutting surfaces, shaded by 
                         mapping properties associated with model elements. In this work, 
                         an efficient GPU-based algorithm for rendering arbitrarily complex 
                         cutting surfaces for reservoir models is presented. The rendering 
                         strategy is based on an efficient point location algorithm. The 
                         proposal includes a compact representation of reservoir models in 
                         the GPU memory, the use of a compact regular grid as the 
                         acceleration technique, and an accurate point location algorithm 
                         for handling hexahedral elements with non-planar faces. 
                         Computational experiments have demonstrated the effectiveness and 
                         efficiency of the proposed approach, even when applied to large 
                         models. A set of applications is discussed in the context of 
                         inspecting reservoir simulation results.",
  conference-location = "Rio de Janeiro, RJ, Brazil",
      conference-year = "28-31 Oct. 2019",
                  doi = "10.1109/SIBGRAPI.2019.00026",
                  url = "http://dx.doi.org/10.1109/SIBGRAPI.2019.00026",
             language = "en",
                  ibi = "8JMKD3MGPEW34M/3U2JQHL",
                  url = "http://urlib.net/ibi/8JMKD3MGPEW34M/3U2JQHL",
           targetfile = "PID6125691.pdf",
        urlaccessdate = "2024, Apr. 28"
}