[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.11568/kjm.2015.23.1.205

EXISTENCE OF SOLUTIONS OF A CLASS OF IMPULSIVE PERIODIC TYPE BVPS FOR SINGULAR FRACTIONAL DIFFERENTIAL SYSTEMS

Liu, Yuji (Department of Mathematics Guangdong University of Finance and Economics)

Publication Information

Korean Journal of Mathematics / v.23, no.1, 2015 , pp. 205-230 More about this Journal

Abstract

A class of periodic type boundary value problems of coupled impulsive fractional differential equations are proposed. Sufficient conditions are given for the existence of solutions of these problems. We allow the nonlinearities p(t)f(t, x, y) and q(t)g(t, x, y) in fractional differential equations to be singular at t = 0, 1 and be involved a sup-multiplicative-like function. So both f and g may be super-linear and sub-linear. The analysis relies on a well known fixed point theorem. An example is given to illustrate the efficiency of the theorems.

Keywords

singular fractional differential system; impulsive boundary value problems; fixed point theorem;

Citations & Related Records

Reference

1	J. Dabas, A. Chauhan, and M. Kumar, Existence of the Mild Solutions for Impulsive Fractional Equations with Infinite Delay, International Journal of Differential Equations 2011 (2011), Article ID 793023, 20 pages.
2	R. Dehghant and K. Ghanbari, Triple positive solutions for boundar, Bulletin of the Iranian Mathematical Society 33 (2007), 1-14.
3	S. Das and P.K.Gupta, A mathematical model on fractional Lotka-Volterra equations, Journal of Theoretical Biology 277 (2011), 1-6. DOI ScienceOn
4	H. Ergoren and A. Kilicman, Some Existence Results for Impulsive Nonlinear Fractional Differential Equations with Closed Boundary Conditions, Abstract and Applied Analysis 2012 (2012), Article ID 387629, 15 pages.
5	M. Feckan, Y. Zhou and J. Wang, On the concept and existence of solution for impulsive fractional differential equations, Commun Nonlinear Sci Numer Simulat 17 (2012), 3050-3060. DOI ScienceOn
6	L. J. Guo, Chaotic dynamics and synchronization of fractional-order Genesio-Tesi systems, Chinese Physics 14 (2005), 1517-1521. DOI ScienceOn
7	G. L. Karakostas, Positive solutions for the ${\Phi}$ -Laplacian when ${\Phi}$ is a sup-multiplicative-like function, Electron. J. Diff. Eqns. 68 (2004), 1-12.
8	E. Kaufmann, E. Mboumi, Positive solutions of a boundary value problem for a nonlinear fractional differential equation, Electronic Journal of Qualitative Theory of Differential Equations, 3 (2008), 1-11.
9	A. A. Kilbas, H. M. Srivastava and J. J. Trujillo, Theory and Applications of Frational Differential Equations, Elsevier Science B. V. Amsterdam, 2006.
10	Y. Liu, Positive solutions for singular FDES, U.P.B. Sci. Series A, 73 (2011), 89-100.
11	Z. Wei and W. Dong, Periodic boundary value problems for Riemann-Liouville fractional differential equations, Electronic Journal of Qualitative Theory of Differential Equations, 87 (2011), 1-13.
12	J. Wang, H. Xiang and Z. Liu, Positive Solution to Nonzero Boundary Values Problem for a Coupled System of Nonlinear Fractional Differential Equations, International Journal of Differential Equations 2010 (2010), Article ID 186928, 12 pages, doi:10.1155/2010/186928. DOI
13	P. K. Singh and T Som, Fractional Ecosystem Model and Its Solution by Homotopy Perturbation Method, International Journal of Ecosystem 2 (5) (2012), 140-149. DOI
14	Y. Tian and Z. Bai, Existence results for the three-point impulsive boundary value problem involving fractional differential equations, Computers and Mathematics with Applications 59 (2010), 2601-2609. DOI ScienceOn
15	M. S. Tavazoei and M. Haeri, Chaotic attractors in incommensurate fractional order systems, Physica D 327 (2008), 2628-2637.
16	M. S. Tavazoei and M. Haeri, Limitations of frequency domain approximation for detecting chaos in fractional order systems, Nonlinear Analysis 69 (2008), 1299-1320. DOI ScienceOn
17	A. Yang and W. Ge, Positive solutions for boundary value problems of N-dimension nonlinear fractional differential systems, Boundary Value Problems, 2008, article ID 437453, doi: 10.1155/2008/437453. DOI ScienceOn
18	S. Zhang, The existence of a positive solution for a nonlinear fractional differential equation, J. Math. Anal. Appl. 252 (2000), 804-812. DOI ScienceOn
19	S. Zhang, Positive solutions for boundary-value problems of nonlinear fractional differential equation, Electron. J. Diff. Eqns. 36 (2006), 1-12.
20	A. Arara, M. Benchohra, N. Hamidi and J. Nieto, Fractional order differential equations on an unbounded domain, Nonlinear Analysis 72 (2010), 580-586. DOI ScienceOn
21	R. P. Agarwal, M. Benchohra and B. A. Slimani, Existence results for differential equations with fractional order and impulses, Mem. Differential Equations Math. Phys. 44 (2008), 1-21. DOI
22	B. Ahmad and J. J. Nieto, Existence of solutions for anti-periodic boundary value problems involving fractional differential equations via Leray-Schauder degree theory, Topological Methods in Nonlinear Analysis 35 (2010), 295-304.
23	Z. Liu, L. Lu and I. Szanto, Existence of solutions for fractional impulsive differential equations with p-Laplacian operator, Acta Mathematica Hungarica 141 (3) (2013), 203-219. DOI ScienceOn
24	Y. Liu, Solvability of multi-point boundary value problems for multiple term Riemann-Liouville fractional differential equations, Comput. Math. Appl. 64 (4) (2012), 413-431. DOI ScienceOn
25	C. Li and G. Chen, Chaos and hyperchaos in the fractional-order Rossler equations, Physica A 341 (2004), 55-61. DOI ScienceOn
26	Z. Liu and X. Li, Existence and uniqueness of solutions for the nonlinear impulsive fractional differential equations, Communications in Nonlinear Science and Numerical Simulation, 18 (6) (2013), 1362-1373. DOI ScienceOn
27	J. Mawhin, Topological degree methods in nonlinear boundary value problems, in: NSFCBMS Regional Conference Series in Math., American Math. Soc. Providence, RI, 1979.
28	G. M. Mophou, Existence and uniqueness of mild solutions to impulsive fractional differential equations, Nonlinear Anal. 72 (2010), 1604-1615. DOI ScienceOn
29	K. S. Miller and S. G. Samko, Completely monotonic functions, Integr. Transf. Spec. Funct. 12 (2001), 389-402. DOI
30	A. M. Nakhushev, The Sturm-Liouville Problem for a Second Order Ordinary Differential equations with fractional derivatives in the lower terms, Dokl. Akad. Nauk SSSR 234 (1977), 308-311.
31	J. J. Nieto, Maximum principles for fractional differential equations derived from Mittag-Leffler functions, Applied Mathematics Letters 23 (2010), 1248-1251. DOI ScienceOn
32	J. J. Nieto, Comparison results for periodic boundary value problems of fractional differential equations, Fractional Differential Equations 1 (2011), 99-104.
33	Z. Liu, L. Lu and I. Szanto, Existence of solutions for fractional impulsive differential equations with p-Laplacian operator, Acta Math. Hungar. 141 (2013), 203-219. DOI ScienceOn
34	X. Zhao and W. Ge, Some results for fractional impulsive boundary value problems on infinite intervals, Applications of Mathematics 56 (4) (2011), 371-387. DOI
35	X. Zhang, X. Huang and Z. Liu, The existence and uniqueness of mild solutions for impulsive fractional equations with nonlocal conditions and infinite delay, Nonlinear Analysis: Hybrid Systems 4 (2010), 775-781. DOI
36	Y. Zhao, S. Sun, Z. Han, M. Zhang, Positive solutions for boundary value problems of nonlinear fractional differential equations, Applied Mathematics and Computation, 217 (2011), 6950-6958. DOI ScienceOn
37	M. Belmekki, Juan J. Nieto and Rosana Rodriguez-Lopez, Existence of periodic solution for a nonlinear fractional differential equation, Boundary Value Problems 2009 (2009), Article ID 324561, doi:10.1155/2009/324561. DOI
38	B. Ahmad and J. J. Nieto, Existence of solutions for impulsive anti-periodic boundary value problems of fractional order, Taiwanese Journal of Mathematics 15 (3) (2011), 981-993. DOI
39	B. Ahmad and S. Sivasundaram, Existence results for nonlinear impulsive hybrid boundary value problems involving fractional differential equations, Nonlinear Analysis: Hybrid Systems 3 (2009), 251-258. DOI
40	M. Benchohra, J. Graef and S. Hamani, Existence results for boundary value problems with nonlinear frational differential equations, Applicable Analysis 87 (2008), 851-863. DOI ScienceOn
41	M. Belmekki, Juan J. Nieto and Rosana Rodriguez-Lopez, Existence of solution to a periodic boundary value problem for a nonlinear impulsive fractional differential equation, Electronic Journal of Qualitative Theory of Differential Equations 16 (2014), 1-27.
42	M. Benchohra and B. A. Slimani, Impulsive fractional differential equations, Electron. J. Differential Equations 10 (2009), 1-11.
43	R. Caponetto, G. Dongola and L. Fortuna, Frational order systems Modeling and control applications, World Scientific Series on nonlinear science, Ser. A, Vol. 72, World Scientific, Publishing Co. Pte. Ltd. Singapore, 2010.
44	K. Diethelm, Multi-term fractional differential equations, multi-order fractional differential systems and their numerical solution, J. Eur. Syst. Autom. 42 (2008), 665-676.
45	W. H. Deng and C. P. Li, Chaos synchronization of the fractional Lu system, Physica A 353 (2005), 61-72. DOI ScienceOn
46	I. Podlubny, Frational Differential Equations, Mathematics in Science and Engineering, Academic Press, San Diego, USA, 1999.
47	N Ozalp and I Koca, A fractional order nonlinear dynamical model of interpersonal relationships, Advances in Difference Equations, (2012) 2012, 189. DOI
48	I. Petras, Chaos in the fractional-order Volta's system: modeling and simulation, Nonlinear Dyn. 57 (2009), 157-170. DOI
49	I. Petras, Fractional-Order Feedback Control of a DC Motor, J. of Electrical Engineering 60 (2009), 117-128.
50	S. Z. Rida, H.M. El-Sherbiny and A. Arafa, On the solution of the fractional nonlinear Schrodinger equation, Physics Letters A 372 (2008), 553-558. DOI ScienceOn
51	M. Rehman and R. Khan, A note on boundaryvalueproblems for a coupled system of fractional differential equations, Computers and Mathematics with Applications 61 (2011), 2630-2637. DOI ScienceOn
52	G. Wang, B. Ahmad and L. Zhang, Impulsive anti-periodic boundary value problem for nonlinear differential equations of fractional order, Nonlinear Analysis 74 (2011), 792-804. DOI ScienceOn
53	X. Wang, C. Bai, Periodic boundary value problems for nonlinear impulsive fractional differential equations, Electronic Journal of Qualitative Theory and Differential Equations, 3 (2011), 1-15.
54	X. Wang and H. Chen, Nonlocal Boundary Value Problem for Impulsive Differential Equations of Fractional Order, Advances in Difference Equations, (2011) 2011, 404917.
55	Z. Wei, W. Dong and J. Che, Periodic boundary value problems for fractional differential equations involving a Riemann-Liouville fractional derivative, Nonlinear Analysis: Theory, Methods and Applications 73 (2010), 3232-3238. DOI

1	Xiaohui Yang. (2015) Boundary Value Problems Solvability of a boundary value problem for singular multi-term fractional differential system with impulse effects / 2015 (1)
1	(2019) Advances in Nonlinear Analysis A new method for converting boundary value problems for impulsive fractional differential equations to integral equations and its applications / 8 (1) , 386