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Kopysov Sergey Petrovich

Publications in Math-Net.Ru

  1. Finite element modeling in absolute nodal coordinate formulation of mechanical behavior of pneumatic actuators

    Mat. Model., 37:4 (2025),  105–120
  2. Method of solution composition in contact problems with friction of deformable bodies

    Vestn. Udmurtsk. Univ. Mat. Mekh. Komp. Nauki, 33:4 (2023),  659–674
  3. Generation of adaptive hexahedral meshes from surface and voxel geometric models

    Vestn. Udmurtsk. Univ. Mat. Mekh. Komp. Nauki, 33:3 (2023),  534–547
  4. A modification of the hexahedral mesh generator based on voxel geometry representation

    Vestn. Udmurtsk. Univ. Mat. Mekh. Komp. Nauki, 30:3 (2020),  468–479
  5. Parallel solving of linear equations systems on hybrid architecture CPU + GPU

    Vestn. YuUrGU. Ser. Vych. Matem. Inform., 9:2 (2020),  40–54
  6. Resource efficient finite element computing on multicore architectures

    Izv. IMI UdGU, 53 (2019),  83–97
  7. Excitation of vortex flows on the free surface of a liquid by a vibrating plate

    Zhurnal Tekhnicheskoi Fiziki, 89:7 (2019),  998–1005
  8. Radial basis function for parallel mesh-to-mesh interpolation in solving fluid-structure interaction problem

    Izv. IMI UdGU, 51 (2018),  42–51
  9. Partitioning of triangulated multiply connected domain into subdomains without branching of inner boundaries

    Uchenye Zapiski Kazanskogo Universiteta. Seriya Fiziko-Matematicheskie Nauki, 160:3 (2018),  544–560
  10. Space semidiscrete formulation of contact algorithm based on the Schwarz's decomposition method for deformable bodies

    Vestn. Udmurtsk. Univ. Mat. Mekh. Komp. Nauki, 27:3 (2017),  396–413
  11. Quasi-newton method for implicit coupling in FSI problem

    CPM, 17:4 (2015),  523–530
  12. Parallel decomposition version in the AISM preconditioner

    Izv. IMI UdGU, 2015, no. 2(46),  120–126
  13. Application of VOF and SPH to solve problems with a developed free surface

    Izv. IMI UdGU, 2015, no. 2(46),  76–84
  14. Extended explicit scheme for solving dynamic structural problem

    Izv. IMI UdGU, 2015, no. 2(46),  69–75
  15. Construction of clumps for discrete element method

    Izv. IMI UdGU, 2015, no. 2(46),  53–59
  16. Parallel forming of preconditioners based on the approximation of the Sherman-Morrison inversion formula

    Num. Meth. Prog., 16:1 (2015),  86–93
  17. A discrete element method for dynamic simulation of arbitrary bodies

    Vestn. Udmurtsk. Univ. Mat. Mekh. Komp. Nauki, 25:4 (2015),  473–482
  18. Modeling of the incompressible liquid flow interaction with barriers using VOF and SPH methods

    Vestn. Udmurtsk. Univ. Mat. Mekh. Komp. Nauki, 25:3 (2015),  405–420
  19. Parallel implementation of a finite-element algorithms on a graphics accelerator in the software package FEStudio

    Computer Research and Modeling, 6:1 (2014),  79–97
  20. Conservative interpolation method between non-matching surface meshes

    Vestn. Udmurtsk. Univ. Mat. Mekh. Komp. Nauki, 2014, no. 4,  64–75
  21. Algorithms and software for solving coupled fluid-structure interactionproblems on hybrid hpc platform

    Computer Research and Modeling, 5:2 (2013),  153–164
  22. The method of unstructured hexahedral mesh generation from volumetric data

    Computer Research and Modeling, 5:1 (2013),  11–24
  23. Methods of mesh deformation for FSI problems

    Num. Meth. Prog., 14:3 (2013),  269–278
  24. A refinement of unstructured quadrilateral and mixed meshes

    Vestn. Udmurtsk. Univ. Mat. Mekh. Komp. Nauki, 2013, no. 4,  62–78
  25. Parallel Algorithms for Constructing and Solving the Schur Complement on Graphics Accelerators

    Uchenye Zapiski Kazanskogo Universiteta. Seriya Fiziko-Matematicheskie Nauki, 154:3 (2012),  202–215
  26. Modeling of interaction of a supersonic stream and the deformable panel in a shock tube

    Vestn. Udmurtsk. Univ. Mat. Mekh. Komp. Nauki, 2012, no. 2,  156–165
  27. Solving of discontinuous Galerkin method systems on GPU

    Vestn. Udmurtsk. Univ. Mat. Mekh. Komp. Nauki, 2011, no. 4,  121–131
  28. Virtual laboratory for finite element modelling

    Vestn. Udmurtsk. Univ. Mat. Mekh. Komp. Nauki, 2010, no. 4,  131–145
  29. Domain decomposition for parallel adaptive finite element algorithm

    Vestn. Udmurtsk. Univ. Mat. Mekh. Komp. Nauki, 2010, no. 3,  141–154
  30. Methods of a binding of parallel processes and threads for multicore computers

    Vestn. Udmurtsk. Univ. Mat. Mekh. Komp. Nauki, 2010, no. 1,  123–132
  31. Two-dimensional numerical wavelet-homogenization for obtaining effective characteristics of composite materials

    Mat. Model., 21:4 (2009),  65–78
  32. Model computation mesh for parallel distributed computing

    Vestn. Udmurtsk. Univ. Mat. Mekh. Komp. Nauki, 2008, no. 2,  194–196
  33. Molecular dynamic modeling of the structure and behavior for nanocomposites with shungit

    Vestn. Udmurtsk. Univ. Mat. Mekh. Komp. Nauki, 2008, no. 2,  179–181
  34. The application of the wavelet transform in the numeric averaging of differential equations with quickly oscillating coefficients and in calculation of effective characteristics

    Izv. Vyssh. Uchebn. Zaved. Mat., 2007, no. 7,  80–83
  35. Numerical determination of averaged characteristics of composites based on the finite element method and the wavelet transform

    Izv. IMI UdGU, 2006, no. 3(37),  67–68
  36. Modeling of softening of filled polymer systems

    Izv. IMI UdGU, 2006, no. 3(37),  37–38
  37. A program environment for mesh generation, refinement, and partition and for construction of computational models for parallel distributed computing

    Num. Meth. Prog., 7:4 (2006),  137–150
  38. Numerical peculiarities of the 2D wavelet-homogenization in the problems of multiresolution analysis

    Num. Meth. Prog., 6:1 (2005),  1–8
  39. Implementation of an object-oriented model of domain decomposition on the basis of parallel distributed CORBA-components

    Num. Meth. Prog., 4:2 (2003),  19–36
  40. An object-oriented method for domain decomposition

    Num. Meth. Prog., 4:2 (2003),  1–18
  41. Parallel algorithms of adaptive refinement and partitioning of unstructured grids

    Mat. Model., 14:9 (2002),  91–96
  42. Object-oriented parallel distributed systems for finiteelement analysis

    Mat. Model., 14:9 (2002),  81–86
  43. Middleware for high performance computing

    Num. Meth. Prog., 2:2 (2001),  109–124
  44. Parallel generation of plane finite-element meshes

    Mat. Model., 10:5 (1998),  71–76
  45. Implementation of a metropolis algorithm on a parallel computation system

    Mat. Model., 9:2 (1997),  97–101
  46. Generation and adaption of finite element mesh for elliptic problem of order two solution

    Mat. Model., 9:2 (1997),  43–45

  47. Sherman - Morrison high-performance algorithm for inverse matrix on GPU

    Vestn. YuUrGU. Ser. Vych. Matem. Inform., 3:2 (2014),  101–108

© Steklov Math. Inst. of RAS, 2026