Mixed-element mesh for an intra-operative modeling of the brain tumor extraction. In pages 387-404, 2008.
doi  abstract   bibtex   
This paper presents a modified-octree technique that generates a mixedelement mesh. The final output mesh consider cubes, prisms, pyramids and tetrahedra. This technique is optimized for brain tumor extraction simulation in a real-time application. The proposed technique is based on the octree algorithm with a specific constraint: elements will be split only if they intersects a certain region of interest. With this approach we pursued a refined mesh only in the path from the skull opening point to the tumor. Fast computation by the Finite Element Method (FEM) is achieve thanks to the local refinement. Examples are given and comparison with other approaches are presented.
@inproceedings{10.1007/978-3-540-75103-8_22,
    abstract = "This paper presents a modified-octree technique that generates a mixedelement mesh. The final output mesh consider cubes, prisms, pyramids and tetrahedra. This technique is optimized for brain tumor extraction simulation in a real-time application. The proposed technique is based on the octree algorithm with a specific constraint: elements will be split only if they intersects a certain region of interest. With this approach we pursued a refined mesh only in the path from the skull opening point to the tumor. Fast computation by the Finite Element Method (FEM) is achieve thanks to the local refinement. Examples are given and comparison with other approaches are presented.",
    year = "2008",
    title = "Mixed-element mesh for an intra-operative modeling of the brain tumor extraction",
    pages = "387-404",
    doi = "10.1007/978-3-540-75103-8\_22",
    journal = "Proceedings of the 16th International Meshing Roundtable, IMR 2007"
}

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