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Matematicheskoe modelirovanie, 2013, Volume 25, Number 2, Pages 42–52 (Mi mm3330)  
This article is cited in 41 scientific papers (total in 41 papers)

Grid-characteristic method using high-order interpolation on tetrahedral hierarchical meshes with a multiple time step

I. B. Petrov, A. V. Favorskaya, A. V. Sannikov, I. E. Kvasov

Moscow Institute of Physics and Technology (State University)
Full-text PDF (632 kB) Citations (41)
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Abstract: The purpose of this article is to develop a grid-characteristic method for high-performance computing systems using unstructured tetrahedral hierarchical meshes, a multiple time step and the high-order interpolation for simulating complex spatial dynamic processes in heterogeneous environments. This method has the precise formulation of contact conditions and is suitable for the physically correct solution of the seismology and seismic prospecting problems in complex heterogeneous environments. The use of the hierarchical meshes allows to take into account a large number of non-homogeneous inclusions (cracks, cavities, etc.). The use of this grid-characteristic method makes it possible to use the multiple time step and thereby increase productivity and significantly reduce the computation time. The methods developed for high-order interpolation on unstructured tetrahedral meshes can solve the problems of seismology and seismic prospecting with the approximation in space to the fifth degree inclusive.
Keywords: grid-characteristic method, tetrahedral grids, high-order interpolation, prospecting seismology, seismology, parallel algorithms, hierarchical grids.
Received: 22.02.2012
English version:
Mathematical Models and Computer Simulations, 2013, Volume 5, Issue 5, Pages 409–415
DOI: https://doi.org/10.1134/S2070048213050104
Bibliographic databases:
Document Type: Article
UDC: 519.63
Language: Russian
Citation: I. B. Petrov, A. V. Favorskaya, A. V. Sannikov, I. E. Kvasov, “Grid-characteristic method using high-order interpolation on tetrahedral hierarchical meshes with a multiple time step”, Mat. Model., 25:2 (2013), 42–52; Math. Models Comput. Simul., 5:5 (2013), 409–415
Citation in format AMSBIB
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\by I.~B.~Petrov, A.~V.~Favorskaya, A.~V.~Sannikov, I.~E.~Kvasov
\paper Grid-characteristic method using high-order interpolation on tetrahedral hierarchical meshes with a multiple time step
\jour Mat. Model.
\yr 2013
\vol 25
\issue 2
\pages 42--52
\mathnet{http://mi.mathnet.ru/mm3330}
\transl
\jour Math. Models Comput. Simul.
\yr 2013
\vol 5
\issue 5
\pages 409--415
\crossref{https://doi.org/10.1134/S2070048213050104}
\scopus{https://www.scopus.com/record/display.url?origin=inward&eid=2-s2.0-84920861134}
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  • https://www.mathnet.ru/eng/mm3330
  • https://www.mathnet.ru/eng/mm/v25/i2/p42
    • This publication is cited in the following 41 articles:
    1. E. N. Shirokova, D. V. Sadin, “Volnovye i relaksatsionnye effekty pri istechenii gazovzvesi, chastichno zapolnyayuschei tsilindricheskii kanal”, Kompyuternye issledovaniya i modelirovanie, 15:6 (2023), 1495–1506  mathnet  crossref
    2. I. A. Mitskovets, N. I. Khokhlov, “Simulation of propagation of dynamic perturbations in porous media by the grid-characteristic method with explicit description of heterogeneities”, Comput. Math. Math. Phys., 63:10 (2023), 1904–1917  mathnet  mathnet  crossref  crossref
    3. A. M. Atayan, A. V. Nikitina, A. I. Sukhinov, A. E. Chistyakov, “Mathematical modeling of hazardous natural phenomena in a shallow basin”, Comput. Math. Math. Phys., 61:2 (2022), 269–286  mathnet  mathnet  crossref  crossref  isi  scopus
    4. Leviant V. Marmalevsky N. Kvasov I. Stognii P. Petrov I., “Numerical Modeling of Seismic Responses From Fractured Reservoirs in 4D Monitoring - Part 1: Seismic Responses From Fractured Reservoirs in Carbonate and Shale Formations”, Geophysics, 86:6 (2021), M211–M232  crossref  isi
    5. Vladimir Leviant, Naum Marmalevsky, Igor Kvasov, Polina Stognii, Igor Petrov, “Numerical modeling of seismic responses from fractured reservoirs in 4D monitoring — Part 1: Seismic responses from fractured reservoirs in carbonate and shale formations”, GEOPHYSICS, 86:6 (2021), M211  crossref
    6. Golubev V., Shevchenko A., Petrov I., “Simulation of Seismic Wave Propagation in a Multicomponent Oil Deposit Model”, Int. J. Appl. Mech., 12:8 (2020), 2050084  crossref  mathscinet  isi  scopus
    7. Petrov I.B. Muratov V M., “Mathematical Modeling of Spatial Wave Responses By Grid-Characteristic Method on Irregular Computational Meshes”, Lobachevskii J. Math., 40:4, SI (2019), 499–506  crossref  mathscinet  isi
    8. Chistyakov Alexander, Elena Protsenko, SECOND INTERNATIONAL CONFERENCE ON MATERIAL SCIENCE, SMART STRUCTURES AND APPLICATIONS: ICMSS-2019, 2201, SECOND INTERNATIONAL CONFERENCE ON MATERIAL SCIENCE, SMART STRUCTURES AND APPLICATIONS: ICMSS-2019, 2019, 050020  crossref
    9. I. B. Petrov, “Problems of simulation of natural and anthropogenous processes in the Arctic zone of the Russian Federation”, Math. Models Comput. Simul., 11:2 (2019), 226–246  mathnet  crossref
    10. P. V. Stognii, D. I. Petrov, N. I. Khokhlov, I. B. Petrov, “Chislennoe modelirovanie setochno-kharakteristicheskim metodom vliyaniya ledovykh obrazovanii na seismicheskie otkliki”, Matem. modelirovanie, 30:8 (2018), 107–115  mathnet
    11. A. V. Favorskaya, M. S. Zhdanov, N. I. Khokhlov, I. B. Petrov, “Modelling the wave phenomena in acoustic and elastic media with sharp variations of physical properties using the grid-characteristic method”, Geophys. Prospect., 66:8 (2018), 1485–1502  crossref  isi  scopus
    12. A. V. Favorskaya, I. B. Petrov, “Theory and practice of wave processes modelling”, Innovations in Wave Processes Modelling and Decision Making: Grid-Characteristic Method and Applications, Smart Innovation Systems and Technologies, 90, eds. A. Favorskaya, I. Petrov, Springer-Verlag, Berlin, 2018, 1–6  crossref  mathscinet  isi  scopus
    13. A. V. Favorskaya, I. B. Petrov, “Grid-characteristic method”, Innovations in Wave Processes Modelling and Decision Making: Grid-Characteristic Method and Applications, Smart Innovation Systems and Technologies, 90, eds. A. Favorskaya, I. Petrov, Springer-Verlag, Berlin, 2018, 117–160  crossref  mathscinet  isi  scopus
    14. V. A. Gushchin, A. V. Nikitina, A. A. Semenyakina, A. I. Sukhinov, A. E. Chistyakov, “A model of transport and transformation of biogenic elements in the coastal system and its numerical implementation”, Comput. Math. Math. Phys., 58:8 (2018), 1316–1333  mathnet  crossref  crossref  isi  elib
    15. A. V. Favorskaya, I. B. Petrov, “Numerical modeling of wave processes in the rocks by grid-characteristic method”, Math. Models Comput. Simul., 10:5 (2018), 639–647  mathnet  mathnet  crossref
    16. P. V. Stognii, D. I. Petrov, N. I. Khokhlov, I. B. Petrov, “Simulation of seismic processes in geological exploration of arctic shelf”, Russ. J. Numer. Anal. Math. Model., 32:6 (2017), 381–392  crossref  mathscinet  zmath  isi  scopus
    17. A. Favorskaya, I. Petrov, V. Golubev, N. Khokhlov, “Numerical simulation of earthquakes impact on facilities by grid characteristic method”, Knowledge-Based and Intelligent Information & Engineering Systems, Procedia Computer Science, 112, ed. C. Zanni-Merk, C. Frydman, C. Toro, Y. Hicks, R. Howlett, L. Jain, Elsevier Science BV, 2017, 1206–1215  crossref  isi  scopus
    18. A. Favorskaya, I. Petrov, A. Grinevskiy, “Numerical simulation of fracturing in geological medium”, Knowledge-Based and Intelligent Information & Engineering Systems, Procedia Computer Science, 112, ed. C. Zanni-Merk, C. Frydman, C. Toro, Y. Hicks, R. Howlett, L. Jain, Elsevier Science BV, 2017, 1216–1224  crossref  isi  scopus
    19. P. Stognii, D. Petrov, N. Khokhlov, A. Favorskaya, “Numerical modeling of influence of ice formations under seismic impacts based on grid-characteristic method”, Knowledge-Based and Intelligent Information & Engineering Systems, Procedia Computer Science, 112, ed. C. Zanni-Merk, C. Frydman, C. Toro, Y. Hicks, R. Howlett, L. Jain, Elsevier Science BV, 2017, 1497–1505  crossref  isi  scopus
    20. A. V. Favorskaya, I. B. Petrov, “Numerical modeling of dynamic wave effects in rock masses”, Dokl. Math., 95:3 (2017), 287–290  crossref  crossref  mathscinet  zmath  isi  elib  scopus
    Citing articles in Google Scholar: Russian citations, English citations
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