Conference
International Conferences (Invited)
1. Zero viscosity limit for non-stationary Navier–Stokes flows with boundary. Conference on Nonlinear PDEs and Applications, 30 August - 2 September, 1989, Kyoto, Japan.
2. Zero viscosity limit for non-stationary incompressible Navier–Stokes flow with boundary. III International Conference ”Lavrentyev Readings on Mathematics, Mechanics and Physics”, 10-14 September, 1990, Nobosivirsk, Russia.
3. On the well-posedness of the free boundary problems for compressible viscous fluid motion. Workshop on Inverse and Ill-posed problems of Mathematical Physics, 17-20 September,1990, Krasnojarsk University, Krasnojarsk, Russia.
4. Evolution free boundary problem for equations of motion of viscous compressible barotropic liquid. International Conference on The Navier–Stokes Equations II - Theory and Numerical Methods, 18-24 August, 1991, Oberwolfach, Germany.
5. Behaviour of free surfaces of viscous fluid. Conference on Nonlinear PDE, 8-10 January, 1992, Hiroshima University, Hiroshima, Japan.
6. Evolution free boundary problem for equations of motion of viscous compressible barotropic liquids. Workshop on Mathematical Analysis of Fluid Flows, 10-12 August,1992, RIMS, Kyoto University, Kyoto, Japan.
7. On the solvability of the localized induction equation for vortex motion. Conference on Nonlinear Partial Differential Equations. Joint Symposium of Japan and Taiwan, 10-14 January, 1994, RIMS, Kyoto University, Kyoto, Japan.
8. On the solvability of the equation for the motion of a vortex filament with or without axial flow. International Conference on The Navier–Stokes Equations III - Theory and Numerical Methods, 5-11 June, 1994, Oberwolfach, Germany.
9. Two phase problem for two-dimensional water waves. Fourth International Conference on Navier–Stokes Equations and Related Nonlinear Problems, 22-27 May, 1995, Toulon-Hyes, France.
10. Burgers’ original model system of turbulence with two components in the secondary motion. International Conference on Nonlinear Evolution Equations and Infinite-dimensional Dynamical System, 12-16 June, 1995, Fudan University, Shanghai, China.
11. On the localized induction equation for a vortex filament motion. International Conference ”Advanced Mathematics, Computations and Applications”, 20-24 June, 1995, Nobosivirsk, Russia.
12. Non-stationary problems for non-homogeneous incompressible fluids: solvability and vanishing viscosity. Sixth International Colloquium on Differential Equations, 18-23 August, 1995, Plovdiv, Bulgaria.
13. Classical slvability of the multi-dimensional Stefan problem in an incompressible viscous fluid flow. International workshop ”Free Boundaries in Viscous Flows”, 4-7 September, 1996, St. Petersburg, Russia.
14. Initial-boundary value problem for the vortex filament equation with axial flow. International Conference on Differential Equations and Dynamical System, 1-4 August, 1997, Waterloo, Canada.
15. Classical solvability of the multi-dimensional Stefan problem in a compressible viscous fluid flow. International Conference ”Nonlinear Differential Equations”, 25-30 August, 1997, Kiev, Ukraine.
16. On the classical solvability of the modified Stefan problem in a compressible viscous fluid flow. The 5th Korea-Japan PDE Conference, 3-5 February, 1998, Kyushu University, Fukuoka, Japan.
17. Coupled Cahn–Hilliard equations. 79th Statistical Mechanics Conference and a Symposium in honor of John Cahn’s 70th Birthday, 15-18 May, 1998, Rutgers University, NJ, USA.
18. Global solutions for the Penrose–Fife phase-field model. Third Siberian Congress on Industrial and Applied Mathematics (INPRIM-98) dedicated to The memory of S. L. Sobolev (1908–1989), 22-27 June, 1998, Novosibirsk, Russia.
19. Global smooth solutions to a Penrose–Fife model of phase-field type. International Conference dedicated to the 90th Anniversary of L. S. Pontryagin (1908–1988), 31 August - 6 September, 1998, Moscow, Russia.
20. Surface waves for an incompressible ideal fluid. EQUADIFF 99, 1-7 August, 1999, Berlin, Germany.
21. Classical solvability of the multi-dimensional Stefan problems for Navier–Stokes equations. International Conference ”Mathematical Models and Methods of their Investigation (Problems of Continuous Medium Mechanics, of Ecology, of Technological Processes, of Economics), 18-24 August, 1999, Krasnoyarsk, Russia.
22. Surface waves for an incompressible inviscid fluid. International Conference honoring academician Sergei K. Godunov ”Mathematics in Applications”, 25-28 August, 1999, Novosibirsk, Russia.
23. Free boundary problem for Euler equations. Fifth International Conference ”Lavrentyev Readings on Mathematics, Mechanics and Physics”, 18-22 September, 2000, Nobosivirsk, Russia.
24. Initial value problem for Navier-Stokes equations with general slip boundary conditions in Holder spaces. 10th Czechoslovak International Conference on Differential Equations and Their Applications, 27-31 August, 2001, Prague, Czech.
25. Boundary value problem for an infinite elastic strip with a semi-infinite crack. International Conference Ill-posed and Inverse Problems dedicated to Prof. M. M. Lavrent’ev on the occasion of 70th Anniversary, 5-9 August, 2002, Novosibirsk, Russia.
26. Finite difference schemes for certain nonlinear parabolic systems. International School-Conference ”Inverse Problems: Theory and Applications”, 11-17 August, 2002, Khanty-Mansiysk, Russia.
27. On a boundary value problem for the Stokes equations in a plane angle. International Conference ”Navier–Stokes Equations and Related Topics”, 11-18 September, 2002, St. Petersburg, Russia.
28. Inverse problems for 1D linear pseudoparabolic and parabolic equations of filtration. Workshop on Inverse Problem and Related Topics, 22-23 February, 2003, Chuo University, Tokyo, Japan.
29. Steady-state solution to the equation of the second grade fluid with slip boundary conditions. International Conference on ”Trends in Partial Differential Equations of Mathematical Physics”, 7-10 June, 2003, Obidos, Portugal.
30. Free boundary problems for Euler equations in 2-D. Conference ”Free Boundary Problems in Fluid Mechanics”, 15-18 September, 2003, Nottingham, UK.
31. Vortical surface waves in 3-D. The Sixth International Workshop on Mathematical Aspects of Fluid and Plasma Dynamics, 19-23 September, 2004, Kyoto, Japan.
32. Vortical surface waves in 3-D. ”PDE’s in Mathematical Physics” In memory of Olga Ladyzhenskaya, 24-30 October, 2004, Levico Termo, Italy.
33. Global solutions to the equations of nonlinear acoustics. Taiwan-Japan Joint Conference on Nonlinear Analysis and Applied Mathematics, 5-9 November, 2004, Taipei, Taiwan.
34. Global solvability to the equations of nonlinear acoustics. International Conference ”Lavrentyev Readings on Mathematics, Mechanics and Physics”, 27-31 May, 2005, Novosibirsk, Russia.
35. Fundamental equations in nonlinear acoustics. Kyoto Conference on the Navier–Stokes Equations and Their Applications, 6-10 January, 2006, Kyoto, Japan.
36. Mathematical problems for the primitive equations. Workshop on Mathematical Analysis on Nonlinear Phenomena, 19-21 December, 2006, Keio University, Yokohama, Japan.
37. Initial boundary value problem for the resistive drift wave turbulence. International Conference on “Inverse and Ill-posed problems of Mathematical Physics” dedicated to Professor M. M. Lavrent’ev on occasion of his 75-th birthday, 21-24 August, 2007, Novosibirsk, Russia.
38. Temporally Global Solution to the Equations for a Spherically Symmetric Viscous Radiative and Reactive Gas over the Rigid Core. International Conference on “Modern problems of Mathematical Modelling and Computational Technologies - 2008”, 18–24 August, 2008, Krasnoyarsk, Russia.
39. Initial-boundary value problem for the motion of incompressible inhomogeneous fluid-like bodies.“Parabolic and Navier–Stokes Equations 2008 in honour of V. A. Solonnikov”, 31 August - 6 September, 2008, Mathematical Research and Conference Center, Bedlewo, Poland.
40. Temporally Global Solution to the Equations for a Spherically Symmetric Viscous Radiative and Reactive Gas over the Rigid Core. Seminar on Differential Equations, 2 October, 2008, Sobolev Institute for Mathematics, Novosibirsk, Russia.
41. The Stokes equations in a domain with piecewise smooth boundary. International Conference on “Differential equations, Function spaces, Approximation theory” dedicated to 100th anniversary of the birthday of Sergei L. Sobolev, 5-12 October, 2008, Novosibirsk, Russia.
42. Temporally Global Solution to the Equations for a Spherically Symmetric Viscous Radiative and Reactive Gas. Seminar on Applied Hydrodynamics, 22 October, 2008, Lavrentyev Institute for hydrodynamics, Novosibirsk, Russia.
43. Stokes equations in a domain with piecewise smooth boundary. Seminar on Continuum Mechanics, 11 March, 2009, Texas A&M University, USA.
44. On the flow of a fluid with pressure dependent viscosity in the rheometer subjected to Navier’s slip boundary conditions. Perambulation of Continuum Mechanics, A Meeting in Celebration of the Sixtieth Birthday of K. R. Rajagopal, 11-13 November, 2010, Texas A&M University, USA.
45. Two phase free boundary problem of Magnetohydrodynamics. Workshop on“Boundary Phenomena for Evolutionary Partial Differential Equations”, 19-20 April, 2013, Institute of Mathematics, Academia Sinica, Taipei, ROC.
46. Free boundary problems of magnetohydrodynamics for viscous compressible electrically conducting fluids. Mathematical Hydrodynamics and Parabolic Equations in honour of Vsevolod Solonnikov on the occasion of his 80th birthday, 11-14 September, 2013, Steklov Institute of Mathematics, St. Petersburg, Russia.
47. Classical solution to the radial viscous fingering problem in a Hele-Shaw cell. RIMS Workshop on Kinetic Modelling and Related Equations: Conference in Memory of Seiji Ukai, 28-30 October, 2013, Kyoto University (Rakuyu-Kaikan), Kyoto, Japan.
48. On some boundary value problem for the Stokes equations in an infinite sector. International Workshop on Singularities in Boundary Value Problems, 10 January, 2014, Tokyo University of Science, Tokyo, Japan.
49. Small-time solvability of primitive equations of the coupled atmosphere and ocean. Progress in Nonlinear Partial Differential Equations, 29-31 May, 2014, University of Lisbon, Lisbon, Portugal.
50. Small-time solvability of primitive equations of the coupled atmosphere and ocean. 7th International Conference on Mathematical Modelling, 30 June-4 July, 2014, Yakutsk, Russia.
51. Classical solvability of radial viscous fingering problem in a Hele-Shaw cell. Classical Problems and New Trends in Mathematical Fluid Dynamics, 29 September-3 October, 2014, Ferrara, Italy.
52. Classical solvability of the two-phase radial viscous fingering problem in a Hele-Shaw cell. International Conference on Mathematical Fluid Dynamics, Present and Future, 11-14 November, 2014, Waseda University, Tokyo, Japan.
53. Classical solvability of radial viscous fingering problem in a Hele-Shaw cell with surface tension. International Conference ”Differential Equations and Mathematical Modelling”, 22-27 June, 2015, Lake Bikal, Russia.
54. Classical solvability of the two-phase radial viscous fingering problem in a Hele-Shaw cell. VIII International Conference ”Lavrentyev Readings on Mathematics, Mechanics and Physics”, 7-11 September, 2015, Nobosivirsk, Russia.
55. Mathematical Analysis in Nonlinear Acoustics. 8th International Conference on Mathematical Modelling, 4-8 July, 2017, Yakutsk, Russia.
56. Mathematical justification of basic equations of nonlinear acoustics. The Last 60 Years of Mathematical Fluid Mechanics: Longstanding Problems and New Perspectives. In Honor of Professors Robert Finn and Vsevolod Solonnikov, 21-25 August, 2017, Vilnius, Lithuania.
57. Dynamic unilateral contact problem with friction for a viscoelastic body with cracks. International Conference CoMFoS18: Mathematical Analysis of Continuum Mechanics, 13-15 July, 2018, Kyoto, Japan.
58. Mathematical justification of KZK equation of nonlinear acoustics. PDEs and Mathematical Hydrodynamics: A conference in Honor of Vsevolod Alekseevich Solonnikov’s 85’th Birthday, 30 July-3 August, 2018, St. Petersburg, Russia.
59. Classical solvability of radial viscous fingering problem in a Hele-Shaw cell: viscous normal stress effects and wetting film effects. Conference, devoted to the 100th anniversary of Academician L. V. Ovsiannikov: ”MATHEMATICAL PROBLEMS OF CONTINUUM MECHANICS”, 22-26 April, 2019, Novosibirsk, Russia.