22 / 23
[20] Astashova I.V. On asymptotic behavior of solutions of certain nonlinear differential
equations.
UMN
, 1985. vol. 40, no. 5 (245), p. 197 (in Russ.).
[21] Astashova I.V. On asymptotic behavior of alternating solutions to certain nonlinear
differential equations of the third and forth order.
Reports of extended session of a
seminar of the I.N. Vekua Institute of Applied Mathematics
, Tbilisi, 1988, no. 3(3),
pp. 9–12 (in Russ.).
[22] Kiguradze I.T. On the oscillation criteria for one class of ordinary differential
equations
Differents. Uravn
. [Differential Equations], 1992, vol. 28, no. 2, pp. 207–
219 (in Russ.).
[23] Chanturia T.A. On existence of singular and unbounded oscillatory solutions
to Emden – Fowler Type Differential equations.
Differents. Uravn
. [Differential
Equations], 1992, vol. 28, no. 6, pp. 1009–1022.
[24] Astashova I.V. On qualitatuve properties of solutions to Emden – Fowler type
equations.
UMN
, 1996, vol. 51, no. 5, pp. 185 (in Russ.).
[25] Kozlov V.A. On Kneser solutions of higher order nonlinear ordinary differential
equations.
Ark. Mat
., 1999, vol. 37, no. 2, pp. 305–322.
[26] Kiguradze I.T. On blow-up kneser solutions of nonlinear ordinary higher-order
differential equations.
Differents. Uravn
. [Differential Equations], 2001, vol. 37,
no. 6, pp. 735–743 (in Russ.).
[27] Kon’kov A.A. On solutions of nonautonomous ordinary differential equations.
Izv
.
Ross. Akad. Nauk, Ser. Mat
. [Izvestiya: Mathematics], 2001, vol. 65, no. 2, pp. 81–126
(in Russ.).
[28] Astashova I.V. Application of Dynamical Systems to the Study of Asymptotic
Properties of Solutions to Nonlinear Higher-Order Differential Equations.
J. of
Mathematical Sciences
. Springer Science + Business Media. 2005, no. 126(5),
pp. 1361–1391.
[29] Astashova I.V. Classification of solutions of fourth-order equations of the Emden –
Fowler type.
Differents. Uravn
. [Differential Equations], 2008, vol. 44, no. 6, pp. 881–
882 (in Russ.).
[30] Astashova I.V. Uniform estimates for positive solutions of higher-order quasilinear
differential equations.
Proceedings of Steklov Mathematical Institute
, 2008, vol. 261,
iss. 1, pp. 22–33.
[31] Astashova I.V. Asymptotic classification of solutions to 3rd and 4th Order Emden –
Fowler type differential equations.
Proceeding of the International Conference
.
Euler International Mathematical Institute, 2011. EIMI, St. Petersburg, 2011,
pp. 9–12.
[32] Astashova I.V. Uniform estimates for solutions to the third-order Emden – Fowler
Type autonomous differential equation.
Functional differential equations
, vol. 18,
1–2. Ariel University Center of Samaria. Ariel, Israel, 2011, pp. 5–63.
[33] Bartuˇsek M., Doˇsl´a S. Asymptotic problems for fourth-order nonlinear differential
equations.
Boundary Value Problems
, 2013, 2013:89. DOI:10.1186/1687-2770-2013-
89
[34] Astashova I.V. On power and non-power asymptotic behavior of positive solutions
to Emden – Fowler type higher-order equations.
Advances in Difference Equations
,
2013. DOI: 10.1186/10.1186/1687-1847-2013-220
[35] Astashova I.V. On asymptotic behavior of solutions to a forth-order nonlinear
differential equation mathematical methods in finance and business administration.
Proceedings of the 1st WSEAS International Conference on Pure Mathematics
(PUMA ’14), Tenerife, Spain, January 10–12, 2014, WSEAS Press, 2013, pp. 32–41.
[36] Bidaut-V´eron M.F. Local and global behaviour of solutions of quasilinear elliptic
equations of Emden – Fowler type.
Arch. Rat. Mech. Anal
., 1989, vol. 107, pp. 293–
324.
[37] Kondratiev V.A. On qualitative properties of solutions to semi-linear elliptic
equations.
Trudy of I.G. Petrovskiy seminar
, 1991, vol. 16, pp. 186–190 (in Russ.).
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