LBIE (Level Set Boundary-Interior-Exterior) is the multi-purpose meshing tool created at CVC which builds quality surface and volumetric mesh conforming to any level set from an imaging data. Variety of output mesh formats are: Triangle Mesh for the Level-Set and Tetrahedral Mesh for the interior and exterior to the level set. Quadrilateral Mesh for the Level-Set and Hexahedral Mesh for the interior and exterior to the level set. Triangle-Tet or Quad-Hex combination for interval volumes defined by two level sets.

References in zbMATH (referenced in 23 articles , 1 standard article )

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  1. Buljac, Ante; Shakoor, Modesar; Neggers, Jan; Bernacki, Marc; Bouchard, Pierre-Olivier; Helfen, Lukas; Morgeneyer, Thilo F.; Hild, François: Numerical validation framework for micromechanical simulations based on synchrotron 3D imaging (2017)
  2. O’Connor, D.T.; Elkhodary, K.I.; Fouad, Y.; Greene, M.S.; Sabet, F.A.; Qian, J.; Zhang, Y.; Liu, W.K.; Jasiuk, I.: Modeling orthotropic elasticity, localized plasticity and fracture in trabecular bone (2016)
  3. Safdari, Masoud; Najafi, Ahmad R.; Sottos, Nancy R.; Geubelle, Philippe H.: A NURBS-based generalized finite element scheme for 3D simulation of heterogeneous materials (2016)
  4. Liao, Tao; Xu, Guoliang; Zhang, Yongjie Jessica: Atom simplification and quality T-mesh generation for multi-resolution biomolecular surfaces (2015)
  5. Chen, Ruizhi; Xi, Ping: A digraph-based hexahedral meshing method for coupled quasi-polycubes (2014)
  6. Liao, Tao; Zhang, Yongjie; Kekenes-Huskey, Peter M.; Cheng, Yuhui; Michailova, Anushka; McCulloch, Andrew D.; Holst, Michael; McCammon, J. Andrew: Multi-core CPU or GPU-accelerated multiscale modeling for biomolecular complexes (2013)
  7. Liang, Xinghua; Zhang, Yongjie: Hexagon-based all-quadrilateral mesh generation with guaranteed angle bounds (2011)
  8. Wang, Wenyan; Zhang, Yongjie; Scott, Michael A.; Hughes, Thomas J.R.: Converting an unstructured quadrilateral mesh to a standard T-spline surface (2011)
  9. Wong, Jonathan; Göktepe, Serdar; Kuhl, Ellen: Computational modeling of electrochemical coupling: a novel finite element approach towards ionic models for cardiac electrophysiology (2011)
  10. Bazilevs, Y.; Hsu, M.-C.; Zhang, Y.; Wang, W.; Liang, X.; Kvamsdal, T.; Brekken, R.; Isaksen, J.G.: A fully-coupled fluid-structure interaction simulation of cerebral aneurysms (2010)
  11. Liang, Xinghua; Ebeida, Mohamed S.; Zhang, Yongjie: Guaranteed-quality all-quadrilateral mesh generation with feature preservation (2010)
  12. Zhang, Yongjie; Hughes, Thomas J.R.; Bajaj, Chandrajit L.: An automatic 3D mesh generation method for domains with multiple materials (2010)
  13. Demkowicz, L.; Gatto, P.; Qiu, W.; Joplin, A.: $G^1$-interpolation and geometry reconstruction for higher order finite elements (2009)
  14. Kuprat, Andrew P.; Einstein, Daniel R.: An anisotropic scale-invariant unstructured mesh generator suitable for volumetric imaging data (2009)
  15. Zhang, Yongjie; Bajaj, Chandrajit; Xu, Guoliang: Surface smoothing and quality improvement of quadrilateral/hexahedral meshes with geometric flow (2009)
  16. Zhang, Yongjie; Hughes, Thomas J.R.; Bajaj, Chandrajit L.: Automatic 3D mesh generation for a domain with multiple materials (2008)
  17. Zhang, Yongjie; Bazilevs, Yuri; Goswami, Samrat; Bajaj, Chandrajit L.; Hughes, Thomas J.R.: Patient-specific vascular NURBS modeling for isogeometric analysis of blood flow (2007)
  18. Du, Qiang; Wang, Desheng: Recent progress in robust and quality Delaunay mesh generation (2006)
  19. Massa, F.; Tison, T.; Lallemand, B.: A fuzzy procedure for the static design of imprecise structures (2006)
  20. Zhang, Yongjie; Bajaj, Chandrajit: Adaptive and quality quadrilateral/hexahedral meshing from volumetric data (2006)

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