Velasco, FranciscoTorres, Juan CarlosCano, PedroXavier PueyoManuel Próspero dos SantosLuiz Velho2023-01-242023-01-242022978-3-03868-194-6https://doi.org/10.2312/pt.20021414https://diglib.eg.org:443/handle/10.2312/pt20021414Volumetric data can be represented as a rectilinear structured grid and can be displayed by the rendering of an isosurface that is built from the grid and defining a threshold value. The know marching cubes method builds the isosurface cell by cell. However, from a set of cells that comply with some conditions, a bigger cell can be built. ln these cases, the volume is represented by a set of cells of different size. Then, the isosurface built by marching cubes will have holes on the borders between cells of different size. ln this paper, we show a new method, called marching edges, to build the isosurface edge by edge, that generates a hole-free isosurface.Attribution 4.0 International LicenseVolume visualization, Cell Octree, Marching Cubes, lsosurface extraction without cracks, TriangulationVolume visualizationCell OctreeMarching Cubeslsosurface extraction without cracksTriangulation10.2312/pt.20021414199-20810 pages