Fitted numerical method for singularly perturbed semilinear three-point boundary value problem

Document Type : Research Article

Authors

Department of Mathematics, College of Natural Sciences,Jimma university, Jimma, Ethiopia.

Abstract

We consider a class of singularly perturbed semilinear three-point boundary value problems. An accelerated uniformly convergent numerical method is constructed via the exponential fitted operator method using Richardson extrapolation techniques to solve the problem. To treat the semilinear term, we use quasi-linearization techniques. The numerical results are tabulated in terms of maximum absolute errors and rate of convergence, and it is observed that the present method is more accurate and ε-uniformly convergent for h ≥ ε, where the classical numerical methods fail to give a good result. It also improves the results of the methods existing in the literature. The method is shown to be second-order convergent independent of perturbation parameter ε.

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References

1. Adzic, N. Spectral approximation and nonlocal boundary value problems, Novi Sad J. Math. 30 (3) (2000) 1–10.
2. Amiraliyev, G.M. and Cakir, M. Numerical solution of the singularly perturbed problem with nonlocal condition, Appl. Math. Mech. (English Edition) 23 (7) (2002) 755–764.
3. Benchohra, M. and Ntouyas, S.K.Existence of solutions of nonlinear differential equations with nonlocal conditions, J. Math. Anal. Appl. 252 (2000) 477–483.
4. Bitsadze, A.V. and Samarskii, A.A. On some simpler generalization of linear elliptic boundary value problem, Doklady Akademii Nauk SSSR. 185 (1969) 739–740.
5. Cakir, M.Uniform second-order difference method for a singularly perturbed three-point boundary value problem, Adv. Differential Equ. 2010 (2010) 1–13.
6. Cakir, M. A numerical study on the difference solution of singularly perturbed semilinear problem with integral boundary condition, Math. Model. Anal. 21 (5) (2016) 644–658.
7. Cakir, M. and Amiraliyev, G.M. A finite difference method for the singularly perturbed problem with nonlocal boundary condition, Appl. Math. Comput. 160 (2005) 539–549.
8. Cakir, M. and Amiraliyev, G.M.Numerical solution of a singularly perturbed three-point boundary value problem, Int. J. Comput. Math. 84(10) (2007) 1465–1481.
9. Cen, Z.A second-order finite difference scheme for a class of singularly perturbed delay differential equations, Int. J. Comput. Math. 87 (1) (2008) 173–185.
10. Cen, Z., Le, A. and Xu, A. Parameter-uniform hybrid difference for solutions and derivatives in singularly perturbed initial value problems, J. Comput. Appl. Math. 320(20) (2017) 176–192.
11. Ciegis, R. The numerical solution of singularly perturbed nonlocal problem (in Russian), Lietuvas Matematica Rink 28 (1988) 144–152.
12. Ciegis, R. The difference scheme for problems with nonlocal conditions, Informatica (Lietuva) 2 (1991) 155–170.
13. Cimen, E. and Cakir, M. Numerical treatment of nonlocal boundary value problem with layer behavior, Bull. Belg. Math. Soc. Simon Stevin. 24 (2017) 339–352. 
14. Clavero, C., Gracia, J.L. and Lisbona, F. High order methods on Shishkin meshes for singular perturbation problems of convection-diffusion type, Numer. Algorithms 22 (1999) 73–97.
15. Doolan, E.P., Miller, J.J.H. and Schilders, W. H.A. Uniform numerical method for problems with initial and boundary layers, Dublin, Boole Press, 1980.
16. Du, Z. and Kong, L. Asymptotic solutions of singularly perturbed secondorder differential equations and application to multi-point boundary value problems, Appl. Math. Lett. 23 (9)(2010) 980–983.
17. Herceg, D. and Surla, K. Solving a nonlocal singularly perturbed nonlocal problem by splines in tension, Univ. u Novom Sadu Zb. Rad. Prirod.-Mat. Fak. Ser. Mathematics, 21 (2) (1991) 119–132.
18. Il’in, V.A. and Moiseev, E.I. Nonlocal boundary value problem of the first kind for a Sturm-Liouville operator in its differential and finite difference aspects, Differ. Equ. 23 (7)(1987) 803–810.
19. Il’in, V.A. and Moiseev, E.I. Nonlocal boundary value problem of the second kind for a Sturm-Liouville operator, Differ. Equ. 23 (1987) 979–987.
20. Jankowski, T.Existence of solutions of differential equations with nonlinear multipoint boundary conditions, Comput. Math. Appl. 47 (2004) 1095–1103.
21. Kudu, M. and Amiraliyev, G.M. Finite difference method for a singularly perturbed differential equations with integral boundary condition, Int. J. Math. Comput. 26 (3) (2015) 72–79.
22. Kumar, M. and Rao, C.S. Higher order parameter-robust numerical method for singularly perturbed reaction-diffusion problems, Appl. Math. Comput. 216 (2010) 1036–1046.
23. Nayfeh, A.H. Introduction to perturbation techniques, John Wiley and Sons, New York, NY, USA, 1993.
24. O’Malley, R.E. Singular perturbation methods for ordinary differential equations, New York, Springer Verlag, 1991.
25. Petrovic, N.On a uniform numerical method for a nonlocal problem. Univ. u Novom Sadu Zb. Rad. Prirod.-Mat. Fak. Ser. Mathematics, 21 (2) (1991) 133–140.
26. Sapagovas, M. and Ciegis, R.Numerical solution of nonlocal problems (in Russian), Lietuvas Matematica Rink 27 (1987) 348–356. 
27. Zheng, Q., Li, X. and Gao, Y. Uniformly convergent hybrid schemes for solutions and derivatives in quasilinear singularly perturbed BVPs, Appl. Numer. Math. 91 (2015) 46–59. 
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