ÝÉÔÉÒÄÁÉÓ ÉÍÃÄØÓÉ (1994-2003 ßËÄÁÉ)

ÖÝáÏÖÒ ÓÀÌÄÝÍÉÄÒÏ ÂÀÌÏÝÄÌÄÁÛÉ ÝÉÔÉÒÄÁÀÈÀ ÒÀÏÃÄÍÏÁÀ (1994-2003 ßËÄÁÉ) - 402

ÓÀØÀÒÈÅÄËÏÓ ÓÀÌÄÝÍÉÄÒÏ ÂÀÌÏÝÄÌÄÁÛÉ ÝÉÔÉÒÄÁÀÈÀ ÒÀÏÃÄÍÏÁÀ (1994-2003 ßËÄÁÉ) - 171

ãÀÌÖÒÉ ÉÍÃÄØÓÉ - 573

ÝÉÔÉÒÄÁÀÈÀ ÍÖÓáÀ (1994-2003 ßËÄÁÉ)

1994

1. A. M. Samoilenko, Bogolyubov, N. N. and nonlinear mechanics. Russian Math. Surveys 49 (1994), No. 5, 109-154.

[5]

2. A. I. Zvyagintsev, On the A-priori boundedness of derivatives of solutions for a system of ordinary differential-equations. Math. Notes 56 (1994), No. 3-4, 919-926.

[75]

3. D. D. Bainov, H. B. Dimitrova, and A. D. Myshkis, Oscillatory and asymptotic properties of the solutions of a class of operator-differential equations. Rocky Mountain J. Math. 24 (1994), No. 4, 1219-1230.

[1]

4. P. E. Zhidkov and V. Z. Sakbaev, On a nonlinear ordinary differential-equation. Math. Notes 55 (1994), No. 3–4, 351-357.

[3]

5. O. V. Alexandrova, On estimate of permanently perturbed systems oscillations. Vestnik Moskov. Univ. Ser. I Mat. Mekh., 1994, No. 5, 54-58.

[5]

6. S. R. Grace and B. S. Lalli, Oscillation criteria for forced neutral differential-equations. Czechoslovak Math. J. 44 (1994), No. 4, 713-724.

[13]

7. V. A. Rabtsevich, Rapidly growing regular solutions to the generalized Emden-Fowler equation with advanced argument. Differential Equations 30 (1994), No. 3, 368-372.

[5, 60]

8. M. Bartušek and Z. Došla, On solutions of a 3rd-order nonlinear differential-equation. Nonlinear Anal. 23 (1994), No. 10, 1331-1343.

[5]

9. J. Dzurina, Comparison theorem for 3rd-order differential-equations. Czechoslovak Math. J. 44 (1994), No. 2, 357-366.

[1]

10. U. Elias and H. Gingold, Oscillation of 2-term differential-equations through asymptotics. J. Math. Anal. Appl. 186 (1994), No. 2, 283-305.

[5]

11. S. R. Grace, Oscillation theorems for certain functional-differential equations. J. Math. Anal. Appl. 184 (1994), No. 1, 100-111.

[13]

12. J. Dzurina, Asymptotic properties of 3rd-order differential-equations with deviating argument. Czechoslovak Math. J. 44 (1994), No. 1, 163-172.

[1, 13]

13. M. Bartušek, On the structure of solutions of a system of three differential inequalities. Arch. Math. (Brno) 30 (1994), No. 2, 117-130.

[5]

14. G. D. Tskhovrebadze, On a multipoint boundary value problem for linear ordinary differential equations with singularities. Arch. Math. (Brno) 30 (1994), No. 3, 171-206.

[1, 2, 33]

15. T. Chanturia, On conjugacy of high-order linear ordinary differential equations. Georgian Math. J. 1 (1994), No. 1, 1-8.

[1]

16. M. Ashordia, On the stability of solutions of linear boundary value problems for a system of ordinary differential equations. Georgian Math. J. 1 (1994), No. 2, 115-126.

[2]

17. S. A. Brykalov, A second-order nonlinear  problem with two-point and integral boundary conditions. Georgian Math. J. 1 (1994), No. 3, 243-249.

[2, 3]

18. A. Lomtatidze, On some two-point boundary value problems for two-dimensional systems of ordinary differential equations. Georgian Math. J. 1 (1994), No. 3, 303-314.

[2, 40]

19. F. Neuman, Limit behavior of solutions of ordinary linear differential equations. Georgian Math. J. 1 (1994), No. 3, 315-323.

[5]

20. M. Ashordia, On the correctness of linear boundary value problems for systems of generalized ordinary differential equations. Georgian Math. J. 1 (1994), No. 4, 343-351.

[2]

21. G. Tskhovrebadze, On the modified boundary value problem of De La Vallée-Poussin for nonlinear ordinary differential equations. Georgian Math. J. 1 (1994), No. 4, 429-458.

[1, 2, 72, 76]

22. R. Koplatadze, On oscillatory properties of solutions of functional differential equations. Mem. Differential Equations Math. Phys. 3 (1994), 1-179.

[1, 5, 10, 13, 46, 47, 56]

1995

23. [Anon], Seminar on the qualitative theory of differential equations in the Moscow University – Abstracts. Differential Equations 31 (1995), No. 9, 1552-1567.

[1, 5, 79]

24. N. B. Konyukhova, Singular Cauchy problems for some systems of nonlinear functional-differential equations. Differential Equations 31 (1995), No. 8, 1286-1293.

[1]

25. S. A. Brykalov, Properties of some plane sets and boundary value problems. Differential Equations 31 (1995), No. 5, 683-689.

[2]

26. A. I. Zvyagintsev, A priori boundedness of derivatives of solutions to a system of ordinary differential equations. Differential Equations 31 (1995), No. 5, 708-714.

[75]

27. P. E. Zhidkov and V. Z. Sakbaev, Existence of a countable set of solutions for a nonlinear boundary value problem. Differential Equations 31 (1995), No. 4, 585-593.

[3]

28. S. R. Grace, Oscillation theorems of comparison type for neutral nonlinear functional differential equations. Czechoslovak Math. J. 45 (1995), No. 4, 609-626.

[13]

29. M. T. Ashordiya, Well-posedness of the Cauchy-Nicoletti boundary value problem for systems of nonlinear generalized ordinary differential equations. Differential Equations 31 (1995), No. 3, 352-362.

[2]

30. A. G. Lomtatidze, A nonlocal boundary value problem for second-order ordinary linear differential equations. Differential Equations 31 (1995), No. 3, 411-420.

[65]

31. V. V. Filippov, On comparison-theorems. Math. Notes 57 (1995), No. 3-4, 421-432.

[5]

32. M. M. Aripov and D. S. Eshmatov, The asymptotic-behavior of solution one class of the 2nd-order nonlinear differential-equations. Dokl. Akad. Nauk 344 (1995), No. 3, 295-297.

[5, 56]

33. N. Parhi and P. K. Mohanty, Oscillation of solutions of forced neutral differential-equations of nth order. Czechoslovak Math. J. 45 (1995), No. 3, 413-433.

[13]

34. J. Dzurina, Asymptotic properties of 3rd-order delay-differential equations. Czechoslovak Math. J. 45 (1995), No. 3, 443-448.

[13]

35. A. E. Zernov, asymptotics of solutions to a cauchy-problem unresolved for the derivative. Differential Equations 31 (1995), No. 1, 31-37.

[1]

36. C. A. Swanson, Uniqueness for semilinear polyharmonic problems. Nonlinear Anal. 25 (1995), No. 9-10, 1055-1062.

[5]

37. S. A. Brykalov, Plane sets and nonlinear boundary-value-problems. Dokl. Akad. Nauk 342(1995), No. 4, 449–451.

[2]

38. J. Dzurina, Asymptotic properties of differential-equations with deviating argument. Czechoslovak Math. J. 45 (1995), No. 2, 337-345.

[13]

39. A. Lomtatidze, On a nonlocal boundary-value problem for 2nd-order linear ordinary differential-equations. J. Math. Anal. Appl. 193 (1995), No. 3, 889-908.

[2, 65]

40. F. Sadyrbaev, Nonlinear 4th-order 2-point boundary-value-problems. Rocky Mountain J. Math. 25 (1995), No. 2, 757-781.

[48, 50]

41. E. Rovderova, Existence of a monotone solution of a nonlinear differential-equation. J. Math. Anal. Appl. 192 (1995), No. 1, 1-15.

[1, 57, 78]

42. R. G. Koplatadze, On oscillatory properties of solutions of functional-differential equations. Dokl. Akad. Nauk 340 (1995), No. 4, 473-475.

[5]

43. D. Bainov and V. Petrov, On some conjectures on the nonoscillatory solutions of neutral differrential equations. J. Math. Anal. Appl. 191 (1995), No. 1, 168-179.

[1]

44. J. Dzurina, Oscillation of 2nd-order differential-equations with mixed argument. J. Math. Anal. Appl. 190 (1995), No. 3, 821-828.

[13]

45. J. Dzurina, Asymptotic properties of n-th order differential-equations with delayed argument. Math. Nachr. 171 (1995), 149-156.

[13]

46. K. Nishihara, Asymptotic behaviors of solutions of 2nd-order differential-equations. J. Math. Anal. Appl. 189 (1995), No. 2, 424-441.

[5]

47. J. Baštinek and J. Diblík, On existence of solutions of singular Cauchy-Nicoletti problem for system of two differential equations. Fasc. Math., 1995, No. 25, 5-12.

[1]

48. J. Džurina, A comparison theorem for linear delay differential equations. Arch. Math. (Brno) 31 (1995), No. 2, 113-120.

[13]

49. A. Škerlík, An integral condition of oscillation for equation  with nonnegative coefficients. Arch. Math. (Brno) 31 (1995), No. 2, 155-161.

[5, 13]

50. G. Gaprindashvili, On the periodic boundary-value problem for systems of second-order nonlinear ordinary differential equations. Georgian Math. J. 2 (1995), No. 1, 21-36.

[1]

51. A. Lomtatidze, Existence of conjugate points for second-order linear differential equations. Georgian Math. J. 2 (1995), No. 1, 93-98.

[65]

52. N. Kh. Rozov and V. G. Sushko, Applications of the method of barriers, I. Some boundary-value problems. Georgian Math. J. 2 (1995), No. 1, 99-110.

[2]

53. T. Werner, The Cauchy-Nicoletti problem with poles. Georgian Math. J. 2 (1995), No. 2, 211–224.

[1]

54. M. Bartušek, On structure of solutions of a system of four differential inequalities. Georgian Math. J. 2 (1995), No. 3, 225-236.

[5]

55. O. Došlý and J. Osička, Kneser-type oscillation criteria for self-adjoint two-term differential equations. Georgian Math. J. 2 (1995), No. 3, 241-258.

[5]

56. V. G. Sushko and N. Kh. Rozov, Applications of the method of barriers, II. Some singularly perturbed problems. Georgian Math. J. 2 (1995), No. 3, 323-334.

[1, 2]

57. M. Ashordia, On the stability of solutions of nonlinear boundary value problems for systems of generalized ordinary differential equations. Mem. Differential Equations Math. Phys. 5 (1995), 117-118.

[2]

58. M. Ashordia, On a method of construction of the solution of the multipoint boundary value problem for a system of generalized ordinary differential equations. Mem. Differential Equations Math. Phys. 5 (1995), 119-121.

[2]

59. M. Ashordia, On the stability of solutions of the multipoint boundary value problem for the system of generalized ordinary differential equations. Mem. Differential Equations Math. Phys. 6 (1995), 1–57.

[2, 6, 63]

60. M. Ashordia, On the question of solvability of the periodic boundary value problem for a system of linear generalized ordinary differential equations. Mem. Differential Equations Math. Phys. 6 (1995), 121-123.

[2]

1996

61. K. Masaki, T. Kusano, and J. F. Wang, Positive solutions of quasilinear second-order differential equations with singular nonlinearities. Differential Equations 32 (1996), No. 12, 1623-1629.

[3]

62. M. Cecchi, M. Marini, and G. Villari, On a cyclic disconjugate operator associated to linear differential equations. Ann. Mat. Pura Appl. 170 (1996), 297-309.

[5]

63. M. T. Ashordiya, A solvability criterion for a many-point boundary value problem for a system of generalized ordinary differential equations. Differential Equations 32 (1996), No. 10, 1300-1308.

[2, 53]

64. S. A. Brykalov, Problems for ordinary differential equations with monotone boundary conditions. Differential Equations 32 (1996), No. 10, 1319-1326.

[2]

65. A. Lomtatidze, The oscillatory property of a third-order linear equation. Differential Equations 32 (1996), No. 10, 1344-1350.

[13]

66. M. M. Aripov and D. S. Eshmatov, Asymptotic representation of solutions to a certain class of nonlinear second-order differential equations. Differential Equations 32 (1996), No. 6, 731-739.

[5, 56]

67. A. A. Konkov, Singular solutions of nonlinear ordinary differential equations. Math. Notes 60 (1996), No. 3-4, 462-466.

[5, 25]

68. M. T. Ashordiya, Criteria for the existence and uniqueness of solutions to nonlinear boundary value problems for systems of generalized ordinary differential equations. Differential Equations 32 (1996), No. 4, 442-450.

[2]

69. N. A. Izobov, A second-order Emden-Fowler equation does not have unbounded proper solutions. Differential Equations 32 (1996), No. 3, 315-320.

[5, 21, 56]

70. S. R. Grace, On the oscillation of certain forced functional differential equations. J. Math. Anal. Appl. 202 (1996), No. 2, 555-577.

[13]

71. X. L. Zhou and J. R. Yan, Oscillatory property of higher order nonlinear difference equations. Comput. Math. Appl. 31 (1996), No. 12, 61-68.

[13]

72. H. Z. Wang and Y. Li, Existence and uniqueness of solutions to two point boundary value problems for ordinary differential equations. Z. Angew. Math. Phys. 47 (1996), No. 3, 373-384.

[65]

73. E. Yanagida, Structure of radial solutions to  in R(n). SIAM J. Math. Anal. 27 (1996), No. 4, 997-1014.

[11]

74. J. Dzurina and V. Soltes, Asymptotic analysis of ODEs. J. Comput. Appl. Math. 67 (1996), No. 2, 301-307.

[13]

75. J. Rovder, On monotone solution of the third-order differential equation. J. Comput. Appl. Math. 66 (1996), No. 1-2, 421-432.

[78]

76. M. Cecchi, Z. Došla, M. Marini, and G. Villari, On the qualitative behavior of solutions of third order differential equations. J. Math. Anal. Appl. 197 (1996), No. 3, 749-766.

[5]

77. A. Lomtatidze, Oscillation and nonoscillation of Emden-Fowler type equation of second order. Arch. Math. (Brno) 32 (1996), 181-193.

[3]

78. V. M. Evtukhov and N. G. Drik, Asymptotic behavior of solutions of a second-order nonlinear differential equation. Georgian Math. J. 3 (1996), No. 2, 101-120.

[5]

79. M. Bartušek, Oscillatory criteria for nonlinear nth-order differential equations with quasiderivatives. Georgian Math. J. 3(1996), No. 4, 301-314.

[1, 5]

80. M. Ashordia, On the correctness of nonlinear boundary value problems for systems of generalized ordinary differential equations. Georgian Math. J. 3 (1996), No. 6, 501-524.

[2, 68]

81. N. V. Azbelev and L. F. Rakhmatullina, Theory of linear abstract functional differential equ­a­ti­ons and applications. Mem. Differential Equations Math. Phys. 8 (1996), 1-102.

[1, 3]

82. M. Ashordia, Criteria for the solvability of a multipoint boundary value problem for systems of generalized ordinary differential equations. Bull. Georgian Acad. Sci. 153 (1996), No. 1, 24-28.

[53]

1997

83. R. S. Dahiya and A. Zafer, Asymptotic behavior and oscillation in higher order nonlinear differential equations with retarded arguments. Acta Math. Hungar. 76 (1997), No. 3, 257-266.

[13]

84. A. I. Zvyagintsev, Strict inequalities for the derivatives of functions satisfying certain boundary conditions. Math. Notes 62 (1997), No. 5-6, 596-606.

[1]

85. A. A. Kon’kov, On growing solutions of nonlinear ordinary differential equations. Math. Notes 62 (1997), No. 5-6, 664-667.

[5]

86. M. Cecchi, Z. Došla, and M. Marini, Some properties of third order differential operators. Czechoslovak Math. J. 47 (1997), No. 4, 729-748.

[5]

87. M. Gregus, Oscillation results on nonlinear third order differential equations. Nonlinear Anal. 30 (1997), No. 3, 1573-1581.

[79]

88. M. Cecchi, Z. Došla, and M. Marini, On nonlinear oscillations for equations associated to disconjugate operators. Nonlinear Anal. 30 (1997), No. 3, 1583-1594.

[5]

89. M. Bartušek, On unbounded oscillatory solutions of nth order differential equations with quasiderivatives. Nonlinear Anal. 30 (1997), No. 3, 1595-1605.

[5]

90. V. A. Rabtsevich, Tests for the absence of rapidly increasing solutions of the Emden-Fowler equation. Differential Equations 33 (1997), No. 5, 681-686.

[5]

91. A. A. Kon’kov, Positive solutions of nonlinear second-order elliptic inequalities in unbounded domains. Russian J. Math. Phys. 5 (1997), No. 1, 119-122.

[5]

92. M. Bartušek, Asymptotic behaviour of oscillatory solutions of nth order differential equations with quasiderivatives. Czechoslovak Math. J. 47 (1997), No. 2, 245-259.

[1, 5]

93. V. N. Laptinskii, Solutions bounded on a semiaxis to nonlinear differential systems. Differential Equations 33 (1997), No. 2, 275-277.

[2]

94. O. Došlý, Oscillation and spectral properties of a class of singular self-adjoint differential operators. Math. Nachr. 188 (1997), 49-68.

[5]

95. A. Posilicano, Poincare-invariant Markov processes and Gaussian random fields on relativistic phase space. Lett. Math. Phys. 42 (1997), No. 1, 85-94.

[5]

96. J. Kalas, General nonuniqueness theorem for ordinary differential equations. Dynam. Contin. Discrete Impuls. Systems 3 (1997), No. 1, 97-111.

[1]

97. R. Y. Ma, Existence theorems for a second order three-point boundary value problem. J. Math. Anal. Appl. 212 (1997), No. 2, 430-442.

[65]

98. S. A. Brykalov, Scalar problems with nonlinear monotone boundary conditions. Dokl. Akad. Nauk 353 (1997), No. 6, 714-716.

[2]

99. J. Y. Wang and D. W. Zheng, On the existence of positive solutions to a three-point boundary value problem for the one-dimensional p-Laplacian. Z. Angew. Math. Mech. 77 (1997), No. 6, 477-479.

[65]

100. V. Soltes and J. Dzurina, Asymptotic properties of delay differential equations. Math. Nachr. 185 (1997), 59-66.

[13]

101. M. Bartušek, Z. Došla, and J. R. Graef, Nonlinear limit-point type solutions of nth order differential equations. J. Math. Anal. Appl. 209 (1997), No. 1, 122-139.

[5]

102. M. Gregus, J. R. Graef, and M. Gera, Oscillating nonlinear third order differential equations. Nonlinear Anal. 28 (1997), No. 10, 1611-1622.

[79]

103. M. Cecchi and M. Marini, Oscillation results for Emden-Fowler type differential equations. J. Math. Anal. Appl. 205 (1997), No. 2, 406-422.

[5]

104. S. Stanék, On some boundary value problems for second order functional differential equations. Nonlinear Anal. 28 (1997), No. 3, 539-546.

[2]

105. U. Elias, Oscillation theory of two-term differential equations. Kluwer Academic Publishers, Dordrecht-Boston-London, 1997.

[1, 5, 10, 17]

106. M. Cecchi, Z. Došla, and M. Marini, An equivalence theorem of properties A, B for third order differential equations. Ann. Mat. Pura Appl. 173 (1997), 373-389.

[5]

107. J. Džurina, Property (A) of n-th order ODE’s. Math. Bohem. 122 (1997), No. 4, 349-356.

[5]

108. M. Cecchi, Z. Došla, and M. Marini, Asymptotic behavior of solutions of third order delay differential equations. Arch. Math. (Brno) 33 (1997), No. 1-2, 99-108.

[5]

109. V. Šeda, Some classes of linear n-th order differential equations. Arch. Math. (Brno) 33 (1997), No. 1-2, 157-165.

[5]

110. N. V. Azbelev, E. I. Bravyi, S. A. Gusarenko, and P. M. Maksimov, Singular problems of the theory functional differential equations. (Russian) Funktsional’nye differentsial’nye uravneniya, Vestnik PGTU (1997), No. 4, 22-35.

[91]

111. M. Greguš and M. Greguš, Jr., An oscillation criterion for nonlinear third-order differential equations. Georgian Math. J. 4 (1997), No. 1, 19-26.

[79]

112. J. Diblík, A multidimensional singular boundary value problem of the Cauchy-Nicoletti type. Georgian Math. J. 4 (1997), No. 4, 303-312.

[1, 20, 28, 33]

113. A. Lomtatidze and S. Mukhigulashvili, On a two-point boundary value problem for second order functional differential equations, I. Mem. Differential Equations Math. Phys. 10 (1997), 125-128.

[3]

114. A. Lomtatidze and S. Mukhigulashvili, On a two-point boundary value problem for second order functional differential equations, II. Mem. Differential Equations Math. Phys. 10 (1997), 150-152.

[3]

115. M. Ashordia, On the existence on nonnegative solutions of the periodic boundary value problem for a system of linear generalized ordinary differential equations. Mem. Differential Equations Math. Phys. 10 (1997), 153-156.

[2]

116. M. Ashordia, On the question of solvability of the periodic boundary value problem for a system of generalized ordinary differential equations. Mem. Differential Equations Math. Phys. 11 (1997), 159-162.

[2]

117. V. A. Rabtsevich, On a criterion of the absence of strongly increasing solutions of the Emden-Fowler equation. Mem. Differential Equations Math. Phys. 11 (1997), 178-182.

[5]

118. L. Hatvani, On the Armellini-Tonelli-Sansone theorem. Mem. Differential Equations Math. Phys. 12 (1997), 76-81.

[5]

119. M. Tvrdý, Linear integral equations in the space of regulated functions. Mem. Differential Equations Math. Phys. 12 (1997), 210-218.

[92]

1998

120. Y. S. Yilmaz and A. Zafer, Oscillation of even order nonlinear neutral differential equations with damping. Math. Inequal. Appl. 1 (1998), No. 3, 445-451.

[10, 13]

121. N. M. Khung, The absence of positive solutions of second-order nonlinear elliptic equations in conical domains. Differential Equations 34 (1998), No. 4, 532-539.

[5]

122. V. A. Rabtsevich, Rapidly growing solutions of arbitrary-order Emden-Fowler systems. Differential Equations 34 (1998), No. 2, 226-230.

[5]

123. L. Hatvani, On the existence of a small solution to linear second order differential equations with step function coefficients. Dynam. Contin. Discrete Impuls. Systems 4 (1998), No. 3, 321-330.

[5]

124. B. G. Zhang, The advancement of oscillation theory of functional differential equations. Chinese Sci. Bull. 43 (1998), No. 12, 974-982.

[5]

125. N. Parhi and S. Padhi, On asymptotic behavior of delay-differential equations of third order. Nonlinear Anal. 34 (1998), No. 3, 391-403.

[13]

126. M. Bartušek and J. Osička, Asymptotic behaviour of solutions of a third-order nonlinear differential equation. Nonlinear Anal. 34 (1998), No. 5, 653-664.

[1]

127. M. Duhoux, Maximum and anti-maximum principles for singular Sturm-Liouville problems. Proc. Roy. Soc. Edinburgh Sect. A 128 (1998), No. 3, 525-547.

[65]

128. Y. Kabeya, E. Yanagida, and S. Yotsutani, Number of zeros of solutions to singular initial value problems. Tôhoku Math. J. 50 (1998), No. 1, 1-22.

[11]

129. M. Henrard and F. Sadyrbaev, Multiplicity results for fourth order two-point boundary value problems with asymmetric nonlinearities. Nonlinear Anal. 33 (1998), No. 3, 281-302.

[1]

130. A. Zafer, Oscillation criteria for even order neutral differential equations. Appl. Math. Lett. 11 (1998), No. 3, 21-25.

[13]

131. A. A. Kon’kov, On behavior of solutions of nonlinear ordinary differential equations. Dokl. Akad. Nauk 358 (1998), No. 6, 739-742.

[60]

132. X. L. Zhou and J. R. Yan, Oscillatory and asymptotic properties of higher order nonlinear dif­ference equations. Nonlinear Anal. 31 (1998), No. 3-4, 493-502.

[13]

133. Yu. A. Klokov, On the Bernstain-Nagumo conditions in boundary value problems of Neumann for ordinary differential equations. (Russian) Differentsial’nye Uravneniya 34 (1998), No. 2, 184-188.

[1]

134. U. Elias and A. Škerlík, On a conjecture about an integral criterion for oscillation. Arch. Math. (Brno) 34 (1998), 393-399.

[5]

135. M. Ashordia, Conditions of existence and uniqueness of solutions of the multi-point boundary value problem for a system of generalized ordinary differential equations. Georgian Math. J. 5 (1998), No. 1, 1-24.

[2, 53]

136. S. S. Cheng and G. Zhang, Monotone solutions of a higher-order neutral difference equation. Georgian Math. J. 5 (1998), No. 1, 49-54.

[5]

137. G. Kvinikadze, On some boundary value problems for high order ordinary differential equations. Mem. Differential Equations Math. Phys. 13 (1998), 99-118.

[1]

138. L. Kokilashvili, On a certain boundary value problem for nonlinear ordinary differential equations. Mem. Differential Equations Math. Phys. 13 (1998), 145-147.

[75]

139. V. M. Evtukhov and E. V. Shebanina, Asymptotic behaviour of solutions of n-th order differential equations. Mem. Differential Equations Math. Phys. 13 (1998), 150-153.

[5]

140. R. Koplatadze, Comparison theorem for deviated differential equations with property A. Mem. Differential Equations Math. Phys. 15 (1998), 141-144.

[5]

141. Z. Sokhadze, On the solvability of the weighted initial value problem for high order evolution singular functional differential equations. Mem. Differential Equations Math. Phys. 15 (1998), 145-149.

[95, 98]

1999

142. T. Tanigawa, Asymptotic behavior of positive solutions to nonlinear singular differential equations of second order. Stud. Sci. Math. Hung. 35 (1999), No. 3-4, 427-444.

[3]

143. S. A. Brykalov, A priori estimates and solvability of problems with nonlinear functional boundary conditions. Differential Equations 35 (1999), No. 7, 880-887.

[2]

144. P. M. Lima and M. P. Carpentier, Iterative methods for a singular boundary-value problem. J. Comput. Appl. Math. 111 (1999), No. 1-2, 173-186.

[65]

145. L. D. Kudryavtsev, A problem with polynomial asymptotic initial data at the point at infinity. Differential Equations 35 (1999), No. 4, 474-479.

[7]

146. Y. Knezhevich-Milyanovich, Extendability of solutions of nonlinear equations. Differential Equations 35 (1999), No. 3, 423-425.

[5]

147. V. A. Kozlov, On Kneser solutions of higher order nonlinear ordinary differential equations. Ark. Mat. 37 (1999), No. 2, 305-322.

[76]

148. J. Andres, G. Gabor, and L. Gorniewicz, Boundary value problems on infinite intervals. Trans. Amer. Math. Soc. 351 (1999), No. 12, 4861-4903.

[45, 58, 70]

149. A. A. Kon’kov, On non-negative solutions of quasilinear elliptic inequalities. Izv. Math. 63 (1999), No. 2, 255-329.

[5]

150. S. R. Grace and H. A. El-Morshedy, Oscillation criteria for certain second order nonlinear difference equations. Bull. Austral. Math. Soc. 60 (1999), No. 1, 95-108.

[23]

151. W. T. Li, S. S. Cheng, and G. Zhang, A classification scheme for nonoscillatory solutions of a higher order neutral nonlinear difference equation. J. Austral. Math. Soc. Ser. A 67 (1999), No. 1, 122-142.

[5]

152. R. P. Agarwal and S. R. Grace, Oscillation of certain functional differential equations. Comput. Math. Appl. 38 (1999), No. 5-6, 143-153.

[13]

153. S. R. Grace and G. G. Hamedani, On the oscillation of functional differential equations. Math. Nachr. 203 (1999), 111-123.

[13]

154. J. Manojlovic, Nonoscillation theorems for Emden-Fowler system of differential equations. Indian J. Pure Appl. Math. 30 (1999), No. 7, 687-694.

[23]

155. S. R. Grace, Oscillations of certain functional differential equations. Czech. Math. J. 49 (1999), No. 1, 45-52.

[13]

156. J. S. W. Wong, Nonoscillation theorems for second order nonlinear differential equations. Proc. Amer. Math. Soc. 127 (1999), No. 5, 1387-1395.

[23, 56]

157. M. Cecchi, Z. Došla, and M. Marini, On third order differential equations with property A and B. J. Math. Anal. Appl. 231 (1999), No. 2, 509-525.

[5]

158. X. Z. Liu and X. L. Fu, High order nonlinear differential inequalities with distributed deviating arguments and applications. Appl. Math. Comput. 98 (1999), No. 2-3, 147-167.

[13]

159. O. Došlý and A. Lomtatidze, Disconjugacy and disfocality criteria for second order singular half-linear differential equations. Ann. Polon. Math. 72 (1999), No. 3, 273-284.

[3, 65]

160. P. Habets and  M. Gaudenzi, Existence and multiplicity of positive solutions for boundary value problems of 2d order ODE. Topol. Methods Nonlinear Anal. 14 (1999), 131-150.

[3, 26]

161. T. Tanigawa, Existence and asymptotic behavior of positive solutions of second order quasilinear differential equations. Adv. Math. Sci. Appl. 9 (1999), No. 2, 907-938.

[5, 21]

162. V. G. Sushko, Asymptotic representations for solutions of bisingular problems. Mem. Differential Equations Math. Phys. 18 (1999), 51-159.

[1, 2]

163. S. Matucci, On asymptotic decaying solutions for a class of second order differential equations. Arch. Math. 35 (1999), No. 3, 275-284.

[5]

164. N. A. Izobov and V. A. Rabtsevich, On two problems of Kiguradze for the Emden-Fowler equations. (Russian) Tr. In-ta matematiki NAN Belarusi 2 (1999), 73-91.

[1, 5, 56, 60]

165. R. Hakl, On some boundary value problems for systems of linear functional differential equations. E. J. Qualitative Theory of Diff. Equ. (1999), No. 10, 1-16.

[92, 96, 102]

166. T. Tanigawa, Positive solutions to second order singular differential equations involving the one-dimensional M-Laplace operator. Georgian Math. J. 6 (1999), No. 4, 347-362.

[3]

167. R. Hakl, On bounded solutions of systems of linear functional differential equations. Georgian Math. J. 6 (1999), No. 5, 429-440.

[2, 7, 92]

168. R. Koplatadze, G. Kvinikadze, and I. P. Stavroulakis, Properties A and B of nth order linear differential equations with deviating argument. Georgian Math. J. 6 (1999), No. 6, 553-566.

[1, 5, 10, 13, 104]

169. R. Koplatadze, Comparison theorems for deviated differential equations with property B. Mem. Differential Equations Math. Phys. 16 (1999), 143-147.

[5]

170. A. Ashordia, On existence of solutions of the periodic boundary value problem for nonlinear system of generalized ordinary differential equations. Mem. Differential Equations Math. Phys. 16 (1999), 150-153.

[2]

2000

171.* Ravi P. Agarwal, Said R. Grace, and Donal O’Regan, Oscillation theory for difference and functional differential equations. Kluwer Academic Publishers, Dordrecht-Boston-London, 2000.

[10, 13, 56]

172. Y. A. Klokov, Upper and lower functions in boundary value problems for a third-order ordinary differential equation. Differential Equations 36 (2000), No. 12, 1762-1769.

[1, 16]

173. V. A. Rabtsevich, Nonoscillating Kneser solutions of the Emden-Fowler equation. Differential Equations 36 (2000), No. 12, 1801-1811.

[5]

174. M. Naito, K. Yano, Positive solutions of higher order ordinary differential equations with general nonlinearities. J. Math. Anal. Appl. 250 (2000), No. 1, 27-48.

[13, 17]

175. J. S. W. Wong, Necessary and sufficient conditions for oscillation of second order neutral differential equations. J. Math. Anal. Appl. 252 (2000), No. 1, 342-352.

[11]

176. A. Kon’kov, On nonnegative solutions of quasilinear elliptic inequalities in domains placed in the layer. (Russian) Differentsial’nye Uravneniya 36 (2000), No. 7, 889-897.

[5]

177. C. Corduneanu, Abstract Volterra equations: A survey. Math. Comp. Modelling 32 (2000), No.  11-13, 1503-1528.

[85, 95, 97]

178. A. Lepin and V. Ponomarev, On a singular boundary value problem for a second order ordinary differential equation. Nonlinear Anal. 42 (2000), No. 6, 949-960.

[1]

179. L. Malaguti and C. Marcelli, Existence of bounded trajectories via upper and lower solutions. Discrete Contin. Dynam. Systems 6 (2000), No. 3, 575-590.

[5]

180. U. Elias and H. Gingold, Effects of varying nonlinearity and their singular perturbation flavour. J. Math. Anal. Appl. 248 (2000), No. 1, 309-326.

[5]

181. J. M. Davis and P. W. Eloe, Discrete Kiguradze type inequalities. J. Differ. Equations Appl. 6 (2000), No. 4, 431-441.

[10]

182. N. Parhi, Oscillations of higher order differential equations of neutral type. Czech. Math. J. 50 (2000), No. 1, 155-173.

[17]

183. Yu. A. Klokov, On a theorem for the Neumann boundary value problem. (Russian) Differentsial’nye Uravneniya 36 (2000), No. 1, 127-128.

[1]

184. M. Y. Zotov, Dynamical system analysis for the Einstein-Yang-Mills equations. J. Math. Phys. 41 (2000), No. 7, 4790-4807.

[5]

185. I. Rachůnkova, Upper and lower solutions and multiplicity results. J. Math. Anal. Appl. 246 (2000), No. 2, 446-464.

[1]

186. V. M. Evtukhov, Conditions for the existence of nonoscillatory solutions of a second-order nonlinear differential equation. Math. Notes 67 (2000), No. 1-2, 160-167.

[5, 11, 56]

187. M. Cherpion, C. De Coster, Existence of solutions for first order singular problems. Proc. Amer. Math. Soc. 128 (2000), No. 6, 1779-1791.

[3]

188. J. Jaroš and T. Kusano, On black hole solutions of second order differential equations with a singular nonlinearity in the differential operator. Funkcial. Ekvac. 43 (2000), No. 3, 491-509.

[3]

189. A. Lomtatidze and S. Mukhigulashvili, Some two-point boundary value problems for second order functional differential equations. Masaryk University, Brno, 2000.

[1, 3, 22, 26, 32, 35, 65, 91, 92, 93, 94, 96, 102, 103]

190. R. Mařik, Half-linear differential equations. Masaryk University, Brno, 2000.

[17, 21]

191. J. Kalas, The use of Lyapunov functions in uniqueness and nonuniqueness theorems. Arch. Math. (Brno) 36 (2000), 469-476.

[1, 20]

192. M. Bartušek, On existence of singular solutions of nth order differential equations. Arch. Math. (Brno) 36 (2000), 395-404.

[1, 5, 13, 21, 60]

193. M. Kováčová, Property A of the th order differential equation . Arch. Math. (Brno) 36 (2000), 487-498.

[79]

194. A. Ronto, A note on the periodicity in difference equations. Arch. Math. (Brno) 36 (2000), 575-584.

[7]

195. S. Tanaka, A necessary and sufficient condition for the oscillation in a class of even order neutral differential equations. E. J. Qualitative Theory of Diff. Equ., 2000, No. 4, 1-27.

[13]

196. N. V. Azbelev, V. P. Maksimov, and L. F. Rakhmatullina, Methods of the modern theory of linear functional differential equations. (Russian) NITs “Regular and Chaotic Dynamic”, Izhevsk, 2000.

[1, 3]

197. V. A. Rabtsevich, On nonoscillatory singular solutions of the Emden-Fowler system of second kind. (Russian) Tr. In-ta matematiki NAN Belarusi 4 (2000), 128-135.

[5]

198. G. Kharatishvili, T. Tadumadze, and N. Gorgodze, Continuous dependence and differentiability of solution with respect to initial data and right-hand side for differential equations with deviating argument. Mem. Differential Equations Math. Phys. 19 (2000), 3-105.

[2]

199. S. Mukhigulashvili, Two-point boundary value problems for second order functional differential equations. Mem. Differential Equations Math. Phys. 20 (2000), 1-112.

[1, 3, 22, 26, 30, 32, 35, 65, 91, 92, 100, 102]

200. A. Lomtatidze and L. Malaguti, On a nonlocal boundary value problem for second order nonlinear singular differential equations. Georgian Math. J. 7 (2000), No. 1, 133-154.

[3, 65]

201. M. Cecchi, Z. Došla, and M. Marini, On the dynamics of the generalized Emden-Fowler equation. Georgian Math. J. 7 (2000), No. 2, 269-282.

[1, 5, 17, 21, 60]

202. M. K. Grammatikopoulos and R. Koplatadze, nth order neutral differential equations with properties AW and BW. Georgian Math. J. 7 (2000), No. 2, 287-298.

[5, 34, 46, 47]

203. J. Kalas, Nonuniqueness theorem for a singular Cauchy problem. Georgian Math. J. 7(2000), No. 2, 317-327.

[1, 18, 19, 20, 51, 52]

204. Wei Nian Li, Oscillation of higher order delay differential equations of neutral type. Georgian Math. J. 7 (2000), No. 2, 347-353.

[5]

205. A. Qi and Y. Liu, Monotone iterative techniques and a periodic boundary value problem for first order differential equations with a functional argument. Georgian Math. J. 7 (2000), No. 2, 373-378.

[2, 53]

206. R. Hakl, On nonnegative bounded solutions of systems of linear functional differential equations. Mem. Differential Equations Math. Phys. 19 (2000), 154-158.

[2, 7, 92, 115]

207. L. Kokilashvili, On a nonlinear two-point boundary value problem for higher order ordinary differential equations. Mem. Differential Equations Math. Phys. 20 (2000), 129-132.

[100]

208. N. Partsvania, On a boundary value problem for the two-dimensional system of evolution functional differential equations. Mem. Differential Equations Math. Phys. 20 (2000), 154-158.

[53, 92, 96, 102, 103]

 

2001

209. M. Sobalova, On oscillatory solutions of the fourth order differential equations with the middle term. Nonlinear Anal. 47 (2001), No. 5, 3573-3578.

[64]

210. E. Litsyn and I. P. Stavroulakis, On the oscillation of solutions of higher order Emden-Fowler state dependent advanced differential equations. Nonlinear Anal. 47 (2001), No. 6, 3877-3883.

[2, 5, 17, 35, 46, 104, 107]

211. W. T. Li and C. K. Zhong, Unbounded positive solutions of higher-order nonlinear functional differential equations. Appl. Math. Lett. 14 (2001), No. 7, 825-830.

[13, 17]

212. M. Bartušek, M. Cecchi, and M. Marini, On Kneser solutions of nonlinear third order differential equations. J. Math. Anal. Appl. 261 (2001), No. 1, 72-84.

[5, 79]

213. L. Adamec and A. Lomtatidze, Oscillation conditions for a third-order linear equation. Differential Equations 37 (2001), No. 6, 755-762.

[5, 13]

214. B. Půža, Some boundary value problems for nonlinear functional- differential equations. Differential Equations 37 (2001), No. 6, 797-806.

[1, 2, 51, 80, 91, 101, 102]

215. M. Cherpion, C. De Coster, and P. Habets, A constructive monotone iterative method for second-order BVP in the presence of lower and upper solutions. Appl. Math. Comput. 123 (2001), No. 1, 75-91.

[22]

216. M. Cecchi, Z. Došla, and M. Marini, Equivalency for disconjugate operators. Math. Nachr. 227 (2001), 19-31.

[5]

217. C. De Coster, Lower and upper solutions for singular derivative dependent Dirichlet problem. Mathematical Inequalities & Applications 4 (2001), No. 3, 377-396.

[3, 22, 35]

218. G. Grzegorczyk and J. Werbowski, Oscillation of higher-order linear difference equations. Comput. Math. Appl. 42 (2001), No. 3-5, 711-717.

[5]

219. L. Adamec, On asymptotic properties of a strongly nonlinear differential equation. Czechoslovak Math. J. 51 (2001), No. 1, 121-126.

[5]

220. Y. S. Yilmaz and A. Zafer, Bounded oscillation of nonlinear neutral differential equations of arbitrary order. Czechoslovak Math. J. 51 (2001), No. 1, 185-195.

[13]

221. J. S. W. Wong, On Kamenev-type oscillation theorems for second-order differential equations with damping. J. Math. Anal. Appl. 258 (2001), No. 1, 244-257.

[11]

222. J. Sugie, A nonoscillation theorem for second-order nonlinear differential equations with decaying coefficients. Bull. London Math. Soc. 33 (2001), No. 3, 299-308.

[56]

223. I. Rachůnkova and M. Tvrdý, Nonlinear systems of differential inequalities and solvability of certain boundary value problems. J. Inequal. Appl. 6 (2001), No. 2, 199-226.

[26]

224. S. Staněk, Positive solutions of singular positone Dirichlet boundary value problems. Math. Comput. Modelling 33 (2001), No. 4-5, 341-351.

[3]

225. P. Zhidkov, Korteweg-de Vries and nonlinear Schroginger equations: Qualitative theory. Lecture Notes in Math., 1756, Springer, Berlin, 2001.

[3]

226. H. Asakawa, On nonresonant singular two-point boundary value problems. Nonlinear Anal. 47 (2001), No. 7, 4849-4860.

[35]

227. A. J. Lepin and F. Z. Sadyrbaev, The upper and lower functions method for second order systems. Zeitschrift Fur Analysis Und Ihre Anwendungen 20 (2001), No. 3, 739-753.

[26, 53]

228. A. Domoshnitsky, Unboundednes of solutions and instability of differential equations of the second order with delayed argument. Differential Integral Equations 14 (2001), No. 5, 559–576.

[111]

229. G. M. Muminov, On a two-point boundary value problem for second order linear differrential equations with coefficients that take values on a given set. (Russian) Izv. Vessh. Uchebn. Zaved., Mat. 2001, No. 6, 44-49.

[32]

230. Ken-ichi Kamo and Hiroyuki Usami, Asymptotic forms of positive solutions of second-order quasilinear ordinary differential equations with sub-homogeneity. Hiroshima Math. J. 31 (2001), 35-39.

[5]

231. T. Chantladze, N. Kandelaki, and A. Lomtatidze, On quadratically integrable solutions of the second order linear equation. Arch. Math. (Brno) 37 (2001), No. 1, 57-62.

[3, 5]

232. N. Parhi and S. Padhi, Asymptotic behaviour of solutions of delay differential equations of n-th order. Arch. Math. (Brno) 37 (2001), No. 2, 81-101.

[12]

233. S. A. Stepin, On the asymptotic behavior of solutions to second order ordinary differential equations. Funct. Differ. Equ. 8 (2001), No. 3-4, 425-434.

[5]

234. M. Ashordia and N. Kekelia, On the -exponentially asymptotic stability of linear systems of generalized ordinary differential equations. Georgian Math. J. 8 (2001), No. 4, 645-664.

[7]

235. M. Bartušek and J. Osička, On the existence of singular solutions. Georgian Math. J. 8 (2001), No. 4, 669-681.

[1, 5, 21]

236. R. Hakl, A. Lomtatidze, and B. Půža, On nonnegative solutions of first order scalar functional differential equations. Mem. Differential Equations Math. Phys. 23 (2001), 51-84.

[7, 92, 96, 102, 115]

237. M. Ashordia and N. Kekelia, On the question of stability of linear systems of generalized ordinary differential equations. Mem. Differential Equations Math. Phys. 23 (2001), 147-151.

[7]

238. N. Kekelia, Some sufficient conditions for -exponentially asymptotically stability of linear systems of generalized ordinary differential equations. Mem. Differential Equations Math. Phys. 23 (2001), 155-158.

[7]

239. R. Hakl, A. Lomtatidze, and B. Půža, On periodic solutions of first order nonlinear functional differential equations of non-Volterra’s type. Mem. Differential Equations Math. Phys. 24 (2001), 83-105.

[1, 2, 7, 92, 94, 96, 99, 102, 109, 114, 115]

240. R. Koplatadze, Property A of  high order linear differential equations with several deviations. Mem. Differential Equations Math. Phys. 24 (2001), 125-135.

[5]

241. V. M. Evtukhov, Asymptotic representations of solutions of ordinary differential equations of n-th order. Mem. Differential Equations Math. Phys. 24 (2001), 140-145.

[5]

2002

242. W. T. Li and C. K. Zhong, Integral averages and interval oscillation of second-order nonlinear differential equations. Math. Nachr. 246 (2002), 156-169.

[5]

243. E. Bravyi, R. Hakl, and A. Lomtatidze, Optimal conditions for unique solvability of the Cauchy problem for first order linear functional differential equations. Czechoslovak Math. J. 52 (2002), No. 3, 513-530.

[92]

244. N. Parhi and S. Padhi, Asymptotic behaviour of solutions of third order delay-differential equations. Indian J. Pure  Appl. Math. 33 (2002), No. 10, 1609-1620.

[5]

245. J. S. W. Wong, A nonoscillation theorem for Emden-Fowler equations. J. Math. Anal. Appl. 274 (2002), No. 2, 746-754.

[5, 23, 56]

246. K. Kamo and H. Usami, Asymptotic forms of positive solutions of third-order Emden-Fowler equations. J. Math. Anal. Appl. 271 (2002), No. 2, 297-312.

[5]

247. R. Hakl, A. Lomtatidze,  and J. Šremr, On a periodic-type boundary value problem for first-order nonlinear functional differential equations. Nonlinear Anal. 51 (2002), No. 3, 425-447.

[7, 92, 94, 96, 99, 102, 109, 113]

248. A. Domoshnitsky, M. Drakhlin, and E. Litsyn, On equations with delay depending on solution. Nonlinear Anal. 49 (2002), No. 5, 689-701.

[5]

249. R. Hakl, A. Lomtatidze, and B. Půža, On periodic solutions of first order linear functional differential equations. Nonlinear Anal. 49 (2002), No. 7, 929-945.

[92, 93]

250. E. Bravyi, R. Hakl, and Lomtatidze, On Cauchy problem for first order nonlinear functional differential equations of non-Volterra's type. Czechoslovak Math. J. 52 (2002), No. 4, 673-690.

[85, 86, 92, 95, 97, 98, 102, 105]

251. P. W. Eloe ans Y. Gao, The method of quasilinearization and a three-point boundary value problem. J. Korean Math. Soc. 39 (2002), No. 2, 319-330.

[65]

252. J. Hay, On necessary conditions for the existence of local solutions to singular nonlinear ordinary differential equations and inequalities. Math. Notes 72 (2002), No. 5-6, 847-857.

[5, 7]

253. S. Tanaka, An oscillation theorem for a class of even order neutral differential equations. J. Math. Anal. Appl. 273 (2002), No. 1, 172-189.

[5, 13]

254. G. M. Jiao, Periodic solutions of th order ordinary differential equations. J. Math. Anal. Appl. 272 (2002), No. 1, 303-317.

[110, 113]

255. R. P. Agarwal,  S. R. Grace, and D. O’Regan, On nonoscillatory solutions of differential inclusions. Proc. Amer. Math. Soc. 131 (2002), No. 1, 129-140.

[10]

256. J. Hay, Necessary conditions for the existence of global solutions of higher-order nonlinear ordinary differential inequalities. Differential Equations 38 (2002), No. 3, 362-368.

[5]

257. Q. R. Wang, Oscillation criteria for even order nonlinear damped differential equations. Acta Math. Hungar. 95 (2002), No. 3, 169-178.

[5, 10, 13, 17]

258. S. Staněk, Positive solutions of singular Dirichlet and periodic boundary value problems. Comput. Math. Appl. 43 (2002), No. 6-7, 681-692.

[3]

259. S. Staněk, The degree method for condensing operators in periodic boundary value problems. Nonlinear Anal. 48 (2002), No. 4, 535-550.

[1, 2]

260. R. Agarwal, S. R. Grace, and D. O’Regan, Nonoscillatory solutions of delay and neutral singular differential equations. Appl. Anal. 81 (2002), 1221-1244.

[10]

261. R. Hakl and A. Lomtatidze, A note on the Cauchy problem for first order linear differential equations with a deviating argument. Arch. Math. (Brno) 38 (2002), No. 1, 61-71.

[92]

262. J. Kubalčík, On a two point linear boundary value problem for system of ODEs with deviating arguments. Arch. Math. (Brno) 38 (2002), No. 2, 101-118.

[7, 92, 93]

263. S. Staněk, On solvability of nonlinear boundary value problems for the equation  with one-sided growth restrictions on f. Arch. Math. (Brno) 38 (2002), No. 2, 129-148.

[2, 50, 54]

264. R. Hakl, A. Lomtatidze, and J. Šremr, On an antiperiodic type boundary value problem for first order linear functional differential equations. Arch. Math. (Brno) 38 (2002), No. 2, 149-160.

[7, 92, 94, 96, 99, 102, 109, 114, 115]

265. M. Sobalová, Asymptotic behaviour of nonoscillatory solutions of the fourth order differential equations. Arch. Math. (Brno) 38 (2002), No. 4, 311-317.

[5, 79]

266. M. Mizukami, M. Naito, and H. Usami, Asymptotic behavior of solutions of a class of second order quasilinear ordinary differential equations. Hiroshima Math. J. 32 (2002), No. 1, 51-78.

[17]

267. R. Hakl, A. Lomtatidze, and B. Půža, New optimal conditions for unique solvability of Cauchy problem for first order linear functional differential equations. Math. Bohem. 127 (2002), No. 4, 509-524.

[6, 92]

268. R. Hakl, A. Lomtatidze, and J. Šremr, Some boundary value problems for first order scalar functional differential equations. Masaryk University, Brno, 2002.

[1, 2, 3, 6, 7, 85, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 102, 103, 105, 109, 114, 115]

269. J. Ligeza, On two point boundary value problems for ordinary nonlinear differential equations of the fourth order in the Colombeau algebra. Acta Univ. Palacki. Olomuc., Fac. rer. nat., Mathematica 41 (2002), 89-103.

[2]

270. M. Bartušek and J. Osička, Asymptotic behaviour of oscillatory solutions of a fourth-order nonlinear differential equation. Math. Bohem.  127 (2002), No. 3, 385-396.

[5]

271. R. Hakl, A. Lomtatidze, and J. Šremr, On a periodic type boundary-value problem for first order linear functional differential equations. Nonlinear Oscillations  5 (2002), No. 3, 416-432.

[115]

272. T. Jankowski, Ordinary differential equations with nonlinear boundary conditions. Georgian Math. J. 9 (2002), No. 2, 287-294.

[2, 53, 101]

273. D. Papini and F. Zanolin, Periodic points and chaotic-like dynamics of planar maps associated to nonlinear Hill’s equations with indefinite weight. Georgian Math. J. 9 (2002), No. 2, 339-366.

[23]

274. R. Hakl, A. Lomtatidze, and J. Šremr, Solvability and the unique solvability of a periodic type boundary value problem for first order scalar functional differential equations. Georgian Math. J. 9 (2002), No. 3, 525-547.

[1, 2, 7, 91, 92, 94, 96, 100, 102, 103]

275. Z. Sokhadze, On the structure of the set of solutions of the weighted Cauchy problem for high order evolution singular functional differential equations. Mem. Differential Equations Math. Phys. 25 (2002), 153-155.

[95, 105]

276. R. Hakl, A. Lomtatidze, and J. Šremr, On constant sign solutions of a periodic type boundary value problems for first order functional differential equations. Mem. Differential Equations Math. Phys. 26 (2002), 65-90.

[7, 99, 115]

277. R. Koplatadze, Comparison theorems for differential equations with several deviations. The case of property B. Mem. Differential Equations Math. Phys. 26 (2002), 139-148.

[5]

278. B. Půža, On boundary value problems for systems of linear functional differential equations with a small parameter. Mem. Differential Equations Math. Phys. 27 (2002), 152-155.

[7, 92]

2003

279. Ravi P. Agarwal, Said R. Grace, and Donal O’Regan, Nonoscillatory criteria for singular higher order differential equations. Aequationes Math. 66 (2003), 180-190.

[10]

280.* Ravi P. Agarwal and Donal O’Regan, Singular differential and integral equations with applications. Kluwer Academic Publishers, Dordrecht-Boston-London, 2003.

[1, 3, 26]

281.* Ravi P. Agarwal, Said R. Grace, and Donal O’Regan, Oscillation theory for second order dynamic equations. Taylor & Francis, London-New York, 2003.

[10, 23, 56]

282. C. H. Ou and J. S. W. Wong, On existence of oscillatory solutions of second order Emden-Fowler equations. J. Math. Anal. Appl. 277 (2003), No. 2, 670-680.

[23]

283. M. Bartušek, On existence of singular solutions. J. Math. Anal. Appl. 280 (2003), No. 2, 232-240.

[5, 21, 23]

284. R. P. Agarwal, S. R. Grace, and D. O’Regan, Non-oscillatory solutions for higher order dynamic equations. J. London Math. Soc. (2) 67 (2003), 165-179.

[10]

285. A. Lomtatidze and P. Torres, On a two-point boundary value problem for second order singular equations. Czechoslovak Math. J. 53 (2003), No. 1, 19-43

[2, 26, 65]

286. R. Hakl, A. Lomtatidze, and B. Půža, On a boundary value problem for first-order scalar fun­ctional differential equations. Nonlinear Anal. 53 (2003), No. 3-4, 391-405.

[1, 2, 7, 91, 92, 93, 94, 96, 100, 102, 103]

287. J. Hay, Necessary conditions for the existence of local solutions to higher-order singular nonlinear ordinary differential equations and inequalities. Dokl. Math. 67 (2003), No. 1, 66-69.

[5, 7]

288. P. U. Wang and L. Debnath, Oscillation criteria for certain even-order damped functional differential equations. Mathematical And Comput. Modelling 37 (2003), No. 1-2, 57-63.

[14]

289. A. Lomtatidze and L. Malaguti, On a two-point boundary value problem for the second order ordinary differential equations with singularities. Nonlinear Anal. 52 (2003), No. 6, 1553-1567.

[3, 65]

290. I. Rachůnková and S. Staněk, Connections between types of singularities in differential equations and smoothness of solutions for Dirichlet BVPS. Dynam. Contin. Discrete Impuls. Systems 10 (2003), No. 1-3, 209-222.

[3]

291. I. Rachůnková, Singular Dirichlet second-order BVPs with impulses. J. Differential Equations 193 (2003), No. 2, 435-459.

[1, 2]

292. D. Khei, Necessary conditions for the existence of global solutions of systems of higher-order nonlinear ordinary differential equations and inequalities. Differential Equations 39 (2003), No. 2, 267-274.

[5, 7]

293. M. K. Grammatikopulos, R. Koplatadze, and G. Kvinikadze, Linear functional differential equations with Property A. J. Math. Anal. Appl. 284 (2003), No. 1, 294-314.

[5]

294. A. Tiryaki, D. Cakmak, and B. Ayanlar, On the oscillation of certain second-order nonlinear differential equations. J. Math. Anal. Appl. 284 (2003), No. 2, 565-574.

[5]

295. W. N. Li and L. Debnath, Oscillation of higher-order neutral partial functional differential equations. Appl. Math. Lett.  16 (2003), No. 4, 525-530.

[5]

296. N. Parhi and R. N. Rath, On oscillation of solutions of forced nonlinear neutral differential equations of higher order. Czechoslovak Math. J. 53 (2003), No. 4, 805-825.

[13]

297. R. P. Agarwal, D. O’Regan, I. Rachůnková, and S. Staněk, Two-point higher-order BVPs with singularities in phase variables. Comput. Math. Appl. 46 (2003), No. 12, 1799-1826.

[1]

298. R. P. Agarwal, D. O’Regan, and S. Staněk, Singular Lidstone boundary value problem with given maximal values for solutions. Nonlinear Anal. 55 (2003), No. 7-8, 859-881.

[3]

299. J. J. Nieto and R. Rodriguez-Lopez, Remarks on periodic boundary value problems for functional differential equations. J. Comput. Appl. Math. 158 (2003), No. 2, 339-353.

[92]

300. D. A. Lackova, The asymptotic properties of the solutions of the nth order functional neutral differential equations. Appl. Math. Comput. 146 (2003), No. 2-3, 385-392.

[4, 13]

301. I. Wan-Tong  Kubiaczyk and S. H. Saker, Oscillation of higher order delay differential equations with applications to hyperbolic equations. Indian J. Pure Appl. Math. 34 (2003), No. 8, 1259-1271.

[13]

302. A. G. Lomtatidze, R. Hakl, and B. Půža, On the periodic boundary value problem for first-order functional-differential equations. Differential Equations 39 (2003), No. 3, 344-352.

[92, 94, 96, 99, 102, 109]

303. V. M. Evtukhov, On solutions decaying at infinity of real nonautonomous systems of quasilinear differential equations. Differential Equations 39 (2003), No. 4, 473-484.

[4, 21]

304. T. I. Kiguradze and T. Kusano, Well-posedness of initial-boundary value problems for higher-order linear hyperbolic equations with two independent variables. Differential Equations 39 (2003), No. 4, 553-563.

[1, 110, 113]

305. I. Rachůnková and S. Staněk, Sturm-Liouville and focal higher order BVPs with singularities in phase variables. Georgian Math. J. 10 (2003), No. 1, 165-191.

[1]

306. J. Mirzov, Nonoscillatory solutions of some differential systems. Mem. Differential Equations Math. Phys. 28 (2003), 89-107.

[1, 3, 5, 23]

307. M. Ashordia and N. Kekelia, On effective sufficient conditions for stability of linear systems of impulsive equations. Mem. Differential Equations Math. Phys. 28 (2003), 147-151.

[7]

308. J. Šremr and P. Šremr, On a two point boundary problem for first order linear differential equations with a deviating argument. Mem. Differential Equations Math. Phys. 29 (2003), 75-124.

[92]