Parametric spline method for a class of singular two-point boundary value problems

“…The function g(u) represents the heat generation within the solid, u is the temperature and the constant p is equal to 0, 1 or 2 depending on whether the solid is a plate, a cylinder or a sphere [4]. In recent years, an increasing interest has been observed in investigating singular two-point boundary value problems and a number of methods have been proposed, see [4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20]. Although these numerical methods have many advantages, a huge amount of computational work is required for getting accurate approximations, especially for nonlinear problems.…”

A new analytical and numerical treatment for singular two-point boundary value problems via the Adomian decomposition method

“…The function g(u) represents the heat generation within the solid, u is the temperature and the constant p is equal to 0, 1 or 2 depending on whether the solid is a plate, a cylinder or a sphere [4]. In recent years, an increasing interest has been observed in investigating singular two-point boundary value problems and a number of methods have been proposed, see [4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20]. Although these numerical methods have many advantages, a huge amount of computational work is required for getting accurate approximations, especially for nonlinear problems.…”

A new analytical and numerical treatment for singular two-point boundary value problems via the Adomian decomposition method

“…t ∈ [0, 3 2 ], N = 180 Example 4. For t ∈ [−1, 1], consider the following boundary value problem [11] (1) (1) = 2 e −1 − 2 e, x (2) (−1) + x (2) (1) = 2 e −1 − 6 e, x (3) (−1) + x (3) (1) = −12 e, x (4) (−1) + x (4) (1) = −4 e −1 − 20 e, x (5) (−1) + x (5) (1) = −10 e −1 − 30 e, x (6) (−1) + x (6) (1) = −18 e −1 − 42 e, x (7) (−1) + x (7) (1) = −28 e −1 − 56 e.…”

“…In 1970s, Scott and Watts [1] described the numerical solution of linear boundary value problems (BVP) using a combination of superposition and orthonormalization. Recently, there are a plenty of methods for the numerical solutions of linear BVP of different orders, such as finite difference methods [2], [3], splines [4], [5], parametric splines [6], [7] and so on. In [8], Lian and Lin consider nth order initial value problems.…”

Spline Approximate Solutions of Arbitrary Order Linear Boundary Value Problems

“…The numerical method is tested for its efficiency by considering two examples from physiology. In [54], J. Rashidinia, Z. Mahmoodi and M. Ghasemi present a three point finite difference method based on uniform mesh using parametric spline for the class of singular two-point BVPs…”

Methods for solving singular boundary value problems using splines: a review