Strygin Vadim Vasil'evich

Publications in Math-Net.Ru

1. The Convergence of the Solution of a Matrix Riccati Equation to the Maximal Stationary Solution in the Critical Case
   
   Differ. Uravn., 38:1 (2002),  29–33
2. A hybrid method for constructing asymptotics for a nonlinear singularly perturbed Cauchy problem with rapidly oscillating conditionally periodic coefficients
   
   Differ. Uravn., 34:3 (1998),  320–325
3. A fourth-order spline collocation method for singularly perturbed problems on optimal grids
   
   Dokl. Akad. Nauk, 353:2 (1997),  167–169
4. The spline-collocation method for a class of boundary value problems with deviating arguments
   
   Differ. Uravn., 33:7 (1997),  985–992
5. The parabolic spline collocation method for solving an optimal control problem with aftereffect
   
   Dokl. Akad. Nauk, 347:4 (1996),  449–450
6. Estimates that are unimprovable with respect to order in Galerkin's finite-element method for singularly perturbed boundary value problems
   
   Dokl. Akad. Nauk, 328:4 (1993),  424–426
7. The collocation method for linear singularly perturbed boundary value problems on nonuniform grids
   
   Differ. Uravn., 29:7 (1993),  1144–1155
8. Fourth order accuracy collocation method for singularly perturbed boundary value problems
   
   Sibirsk. Mat. Zh., 34:1 (1993),  16–31
9. Convergence of the spline-collocation method for singularly perturbed boundary value problems on locally uniform grids
   
   Differ. Uravn., 26:7 (1990),  1191–1197
10. The Galerkin method for singularly perturbed boundary value problems on adaptive nets
    
    Sibirsk. Mat. Zh., 31:5 (1990),  138–148
11. The spline-collocation method on adaptive grids for singularly perturbed boundary value problems
    
    Dokl. Akad. Nauk SSSR, 304:4 (1989),  785–788
12. Convergence of the spline collocation method on optimal grids for singularly perturbed boundary value problems
    
    Differ. Uravn., 24:11 (1988),  1977–1987
13. Integral manifolds of singularly perturbed systems and some of their applications
    
    Differ. Uravn., 21:10 (1985),  1723–1726
14. Convergence of the Galerkin method for a nonlinear two-point singularly perturbed boundary value problem in the space $C[a,b]$
    
    Zh. Vychisl. Mat. Mat. Fiz., 25:7 (1985),  1001–1008
15. The bifurcation of quasistationary periodic solutions of differential-difference equations
    
    Differ. Uravn., 10:7 (1974),  1332–1334
16. Application of the collocation method and the difference method to the determination of the autooscillations of differential-difference equations
    
    Zh. Vychisl. Mat. Mat. Fiz., 14:3 (1974),  691–698
17. Invariance of rotation principles
    
    Izv. Vyssh. Uchebn. Zaved. Mat., 1972, no. 5,  51–57
18. “Exchange of stabilities” and bifurcation of small auto-oscillations of systems of differential equations with a small parameter in the highest derivative
    
    Dokl. Akad. Nauk SSSR, 199:1 (1971),  33–35
19. On the bifurcation of quasi-stationary periodic solutions for a system of differential-difference equations
    
    Dokl. Akad. Nauk SSSR, 196:2 (1971),  305–308
20. A theorem concerning the existence of periodic solutions of systems of differential equations with delayed arguments
    
    Mat. Zametki, 8:2 (1970),  229–234
21. Peculiarities of the averaging principle for evolution equations
    
    Dokl. Akad. Nauk SSSR, 188:3 (1969),  535–537
22. Complete solvability of multi-dimensional differential equations with potential right-hand side
    
    Differ. Uravn., 5:2 (1969),  331–342
23. Principles of rotational invariance of a completely continuous vector field
    
    Funktsional. Anal. i Prilozhen., 1:3 (1967),  33–39
24. Principles of rotational invariance of a vector field
    
    Uspekhi Mat. Nauk, 20:4(124) (1965),  200
25. The dependence of an integral operator on a parameter
    
    Dokl. Akad. Nauk SSSR, 159:1 (1964),  28–31
26. Some criteria for the existence of periodic solutions of ordinary differential equations
    
    Dokl. Akad. Nauk SSSR, 156:5 (1964),  1022–1024
27. Calculation of the rotation of completely continuous vector fields associated with the problem of periodic solutions of differential equations
    
    Dokl. Akad. Nauk SSSR, 152:3 (1963),  540–543
28. On the rate of convergence of the Newton–Kantorovich method
    
    Uspekhi Mat. Nauk, 17:3(105) (1962),  185–187


29. Memory of M. A. Krasnosel'skii
    
    Avtomat. i Telemekh., 1998, no. 2,  179–184