|
Reference
|
|
Anber, A., Belarbi, S., Dahmani, Z. (2013) New existence and uniqueness results for fractional differential equations. An. St. Univ. Ovidius Constanta, Vol. 21(3), 33-41
|
|
Bengrine, M.E.A., Dahmani, Z. (2012) Boundary Value Problems for Fractional Differential Equations. International Journal of Open Problems in Computer Science and Mathematics, 5(4): 7-15
|
|
Cui, Z., Yu, P., Mao, Z. (2012) Existence of solutions for nonlocal boundary value problems of nonlinear- fractional differential equations. Advances in Dynamical Systems and Applications, 7(1), 31-40
|
1
|
Diethelm, K., Ford, N.J. (2002) Analysis of fractional differential equations. J Math. Anal. Appl, 265, str. 229-248
|
1
|
El-Sayed, A.M.A. (1998) Nonlinear functional differential equations of arbitrary orders. Nonlinear Analysis: Theory, Methods and Applications, 33(2): 181-186
|
|
Feng, W., Sun, S., Han, Z., Zhao, Y. (2011) Existence of solutions for a singular system of nonlinear fractional differential equations. Computers and Mathematics with Applications, 62(3): 1370-1378
|
|
Gaber, M., Brikaa, M.G. (2012) Existence results for a coupled system of nonlinear fractional differential equation with three-point boundary condition. Journal of Fractional Calculus and Applications, 3(21), 1-10
|
|
Guo, Z., Liu, M. (2011) On solutions of a system of higher-order nonlinear fractional differential equations. Bulletin of Mathematical Analysis and Applications, 3(4), 59-68
|
|
Houas, M., Dahmani, Z., Benbachir, M. (2013) New results for a boundary value problem for differential equations of arbitrary order. International Journal of Modern Mathematical Sciences, 7(2), 195-211
|
|
Houas, M., Dahmani, Z. (2013) New results for a Caputo boundary value problem. American Journal of Computational and Applied Mathematics, 3, (3), 143-161
|
2
|
Houas, M., Dahmani, Z. (2013) New results for a coupled system of fractional differential equations. Facta universitatis - series: Mathematics and Informatics, vol. 28, br. 2, str. 133-150
|
1
|
Houas, M., Dahmani, Z. (2013) New Fractional Results for a Boundary Value Problem with Caputo Derivative. International Journal of Open Problems in Computer Science and Mathematics, 6(2): 30-42
|
|
Hu, Z., Liu, W., Chen, T. (2012) Existence of solutions for a coupled system of fractional differential equations at resonance. Boundary Value Problems, 2012(1): 98
|
2
|
Kilbas, A.A., Marzan, S.A. (2005) Nonlinear differential equations with the Caputo fractional derivative in the space of continuously differentiable functions. Differential Equations, 41(1): 84-89
|
5
|
Lakshmikantham, V., Vatsala, A.S. (2008) Basic theory of fractional differential equations. Nonlinear Analysis: Theory, Methods and Applications, 69(8): 2677-2682
|
1
|
Liang, J., Liu, Z., Wang, X. (2013) Solvability for a couple system of nonlinear fractional differential equations in a Banach space. Fractional Calculus and Applied Analysis, 16(1)
|
|
Liu, R., Kou, C., Xie, X. (2013) Existence Results for a Coupled System of Nonlinear Fractional Boundary Value Problems at Resonance. Mathematical Problems in Engineering, 2013: 1-9
|
|
Liu, Y., Ahmad, B., Agarwal, R.P. (2013) Existence of solutions for a coupled system of nonlinear fractional differential equations with fractional boundary conditions on the half-line. Advances in Difference Equations, 2013(1): 46
|
2
|
Mainardi, F. (1997) Fractional calculus: Some basic problems in continuum and statistical mechanics. u: Carpinteri A., Mainardi F. [ur.] Fractals and fractional calculus in continuum mechanics, Wien: Springer Verlag, str. 291-348
|
1
|
Nieto, J.J., Pimentel, J. (2013) Positive solutions of a fractional thermostat model. Boundary Value Problems, 2013(1): 5
|
|
Ntouyas, S.K., Obaid, M. (2012) A coupled system of fractional differential equations with nonlocal integral boundary conditions. Advances in Difference Equations, 2012(1): 130
|
|
Podlubny, I., Petráš, I., Vinagre, B.M., O`Leary, P., Dorčák, Ľ. (2002) Analogue realizations of fractional-order controllers. Fractional order calculus and its applications. Nonlinear Dynamics, 29(1/4): 281-296
|
|
Wang, G., Agarwal, R.P., Cabada, A. (2012) Existence results and the monotone iterative technique for systems of nonlinear fractional differential equations. Applied Mathematics Letters, 25(6): 1019-1024
|
|
Yang, W. (2012) Three-point boundary value problems for a coupled system of nonlinear fractional differential equations. J Appl. Math. Informatics, 30(5-6), 773-785
|
1
|
Yang, W. (2012) Positive solutions for a coupled system of nonlinear fractional differential equations with integral boundary conditions. Computers and Mathematics with Applications, 63(1): 288-297
|
|
Zhang, X., Zhu, C., Wu, Z. (2013) Solvability for a coupled system of fractional differential equations with impulses at resonance. Boundary Value Problems, 2013(1): 80
|
1
|
Zhang, Y., Bai, Z., Feng, T. (2011) Existence results for a coupled system of nonlinear fractional three-point boundary value problems at resonance. Computers and Mathematics with Applications, 61(4): 1032-1047
|
|
|
|