Details

Title

Parallel anisotropic mesh refinement with dynamic load balancing for transonic flow simulations

Journal title

Bulletin of the Polish Academy of Sciences Technical Sciences

Yearbook

2017

Volume

65

Issue

No 2

Authors

Divisions of PAS

Nauki Techniczne

Coverage

195-207

Date

2017

Identifier

DOI: 10.1515/bpasts-2017-0024 ; ISSN 2300-1917

Source

Bulletin of the Polish Academy of Sciences: Technical Sciences; 2017; 65; No 2; 195-207

References

Ruppert (1992), On the difficulty of triangulating three - dimensional nonconvex polyhedra Discrete & Computational, Geometry, 61, 227. ; Bänsch (1991), Local mesh refinement in and dimensions IMPACT of Computing in Science and, Engineering, 46, 181. ; Majewski (2002), An anisotropic adaptation for simulation of compressible flows Mathematical Modelling and, Analysis, 7, 127. ; Zhu (2002), An adaptive solution of the Euler equations on an unstructured grid, Acta Mechanica, 43, 155. ; Feldmann (2013), Fast balanced partitioning is hard even on grids and trees, Theoretical Computer Science, 485. ; Bauer (2014), Simulation of tropical - cyclone - like vortices in shallow - water icon - hex using goal - oriented r - adaptivity Theoretical and Computational Fluid, Dynamics, 51, 107. ; Hendrickson (2000), Graph partitioning models for parallel computing, Parallel Computing, 26, 1519, doi.org/10.1016/S0167-8191(00)00048-X ; Oliker (2000), Parallel tetrahedral mesh adaptation with dynamic load balancing, Parallel Comput, 10, 1583, doi.org/10.1016/S0167-8191(00)00047-8 ; Farrell (2011), An anisotropic Zienkiewicz type error estimator for d applications for Numerical Methods in, International Journal Engineering, 21, 671. ; Schönhardt (1928), Über die zerlegung von dreieckspolyedern in tetraeder in German, Mathematische Annalen, 62, 309, doi.org/10.1007/BF01451597 ; Venditti (2003), Anisotropic grid adaptation for functional outputs : application to two - dimensional viscous flows, Comput Phys, 27, 187. ; Rivara (1997), New longest - edge algorithms for the refinement and / or improvement of unstructured triangulations for Numerical Methods in, International Journal Engineering, 45, 3313. ; Castro (1997), Anisotropic unstructured mesh adaptation for flow simulation for Numerical Methods in, International Journal Fluids, 31, 475, doi.org/10.1002/(SICI)1097-0363(19970830)25:4<475::AID-FLD575>3.0.CO;2-6 ; Park (2005), A parallel unstructured dynamic mesh adaptation algorithm for unsteady flows for Numerical Methods in, International Journal Fluids, 41, 671, doi.org/10.1002/fld.954 ; Hendrickson (2000), Dynamic load balancing in computational mechanics in and, Computer Methods Applied Mechanics Engineering, 11, 184. ; Compère (2010), A mesh adaptation framework for dealing with large deforming meshes for Numerical Methods in, International Journal Engineering, 40, 843. ; Zienkiewicz (1992), The superconvergent patch recovery and a posteriori error estimates Part : Error estimates and adaptivity for Numerical Methods in, International Journal Engineering, 20, 1365. ; Bourgault (2009), On the use of anisotropic a posteriori error estimators for the adaptative solution of inviscid compressible flows for Numerical Methods in, International Journal Fluids, 1, 47, doi.org/10.1002/fld.1797 ; Budd (2009), Adaptivity with moving grids, Acta Numerica, 52, 111, doi.org/10.1017/S0962492906400015 ; Li (2005), anisotropic mesh adaptation by mesh modification in and, Computer Methods Applied Mechanics Engineering, 42, 194. ; Alauzet (2006), Parallel anisotropic mesh adaptation by mesh modification Engineering with, Computers, 38, 247. ; Devine (2005), New challenges in dynamic load balancing Numerical, Applied Mathematics, 14, 133. ; Alauzet (2003), Transient fixed point - based unstructured mesh adaptation for Numerical Methods in, International Journal Fluids, 32, 729, doi.org/10.1002/fld.548 ; Frey (2005), Anisotropic mesh adaptation for CFD computations Comput, Methods Appl Mech Engrg, 17, 194. ; Alauzet (2010), Size gradation control of anisotropic meshes Finite Elem, Anal Des, 2, 181. ; Rajagopal (2007), A combined r - h adaptive strategy based on material forces and error assessment for plane problems and bimaterial interfaces, Computational Mechanics, 48, 49, doi.org/10.1007/s00466-007-0168-8 ; Peraire (1992), Adaptive remeshing for three - dimensional compressible flow computations of Computational, Journal Physics, 29, 269. ; Zienkiewicz (1987), A simple error estimator and adaptive procedure for practical engineering analysis for Numerical Methods in, International Journal Engineering, 18, 337. ; Rokicki (2001), Parallel performance of overlapping mesh technique for compressible flows Future Generation Computer, Systems, 64, 3. ; Arnold (2000), Locally adapted tetrahedral meshes using bisection on Scientific, SIAM Journal Computing, 47, 431, doi.org/10.1137/S1064827597323373 ; Hartmann (2007), Adjoint consistency analysis of discontinuous Galerkin discretizations SIAM, Numer Anal, 25, 2671, doi.org/10.1137/060665117 ; Mavriplis (1990), Adaptive mesh generation for viscous flows using Delaunay triangulation, Comput Phys, 28, 90. ; Micheletti (2006), Reliability and efficiency of an anisotropic Zienkiewicz - Zhu error estimator in and, Computer Methods Applied Mechanics Engineering, 22, 195. ; Zienkiewicz (1992), The superconvergent patch recovery and a posteriori error estimates Part : The recovery technique for Numerical Methods in, International Journal Engineering, 19, 1331. ; Troyer (2005), Parallel grid adaptation and dynamic load balancing for a CFD solver in, Lecture Notes Computer Science, 3666. ; Waltz (2004), Parallel adaptive refinement for unsteady flow calculations on unstructured grids for Numerical Methods in, International Journal Fluids, 44, 37, doi.org/10.1002/fld.674 ; Loseille (2010), Fully anisotropic goal - oriented mesh adaptation for steady Euler equations, Physics, 24, 229.
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