Numerical Treatment of Matrix Differential Models Using Matrix Splines
This paper consider the solution of the matrix
differential models using quadratic, cubic, quartic, and quintic
splines. Also using the Taylor’s and Picard’s matrix methods, one
illustrative example is included.
[1] E. Defez, J. Sastre, J. Ibánez and P.A. Ruiz, Computing Matrix
Functions Solving Coupled Differential Models, Mathematical and
Computer Modelling, 50(5-6), 831-839, (2009).
[2] M.M. Tung, E. Defez and J. Sastre, Numerical Solutions of Second-
Order Matrix Models Using Cubic-Matrix Splines, Computers and
Mathematics with Applications, 56(10), 2561-2571, (2008).
[3] A. Borhanifar, R. Abazari, Numerical Solution of Second-Order Matrix
Differential Models Using Cubic Matrix Splines, Journal of Applied
Mathematical Sciences, 1(59), 2927-2937, (2007).
[4] E. Defez, A. Hervas, L. Soler, and M.M. Tung, Numerical Solutions of
Matrix Differential Models Using Cubic Matrix Splines II, Journal of
Mathematical and Computer Modelling, 46(5-6), 657-669, (2007).
[5] C.C. Christara, Kit Sun Ng, Adaptive Techniques for Spline Collocation,
Journal of Computing, 76(3-4), 259-277, (2006).
[6] E. Defez, L. Soler, A. Hervas and C. Santamaria, Numerical Solution
of Matrix Differential Models Using Cubic Matrix Splines, Journal of
Computers and Mathematics with Applications, 50(5-6), 693-699,
(2005).
[7] A.S.V. Ravi Kanth, Y.N. Reddy, Cubic Spline for a Class of Singular
Two- Point Boundary Value Problems, Journal of Applied Mathematics
and Computation, 170(2), 733-740, (2005).
[8] R. Company, E. Defez and L. Jódar, Exact and Analytic Numerical
Solution of Coupled Parabolic Mixed Problems in a Semi-Infinite
Medium, Computers and Mathematics with Applications, 47(2-3), 381-
390, (2004).
[9] M.A. Noor, E.A. Al-Said, Quartic Splines Solutions of Third-Order
Obstacle Problems, Journal of Applied Mathematics and Computation,
153(2), 307–316, (2004).
[10] E.A. Al-Said, M.A. Noor, Cubic Splines Method for a System of Third-
Order Boundary Value Problems, Journal of Applied Mathematics and
Computation, 142(2-3), 195–204, (2003).
[1] E. Defez, J. Sastre, J. Ibánez and P.A. Ruiz, Computing Matrix
Functions Solving Coupled Differential Models, Mathematical and
Computer Modelling, 50(5-6), 831-839, (2009).
[2] M.M. Tung, E. Defez and J. Sastre, Numerical Solutions of Second-
Order Matrix Models Using Cubic-Matrix Splines, Computers and
Mathematics with Applications, 56(10), 2561-2571, (2008).
[3] A. Borhanifar, R. Abazari, Numerical Solution of Second-Order Matrix
Differential Models Using Cubic Matrix Splines, Journal of Applied
Mathematical Sciences, 1(59), 2927-2937, (2007).
[4] E. Defez, A. Hervas, L. Soler, and M.M. Tung, Numerical Solutions of
Matrix Differential Models Using Cubic Matrix Splines II, Journal of
Mathematical and Computer Modelling, 46(5-6), 657-669, (2007).
[5] C.C. Christara, Kit Sun Ng, Adaptive Techniques for Spline Collocation,
Journal of Computing, 76(3-4), 259-277, (2006).
[6] E. Defez, L. Soler, A. Hervas and C. Santamaria, Numerical Solution
of Matrix Differential Models Using Cubic Matrix Splines, Journal of
Computers and Mathematics with Applications, 50(5-6), 693-699,
(2005).
[7] A.S.V. Ravi Kanth, Y.N. Reddy, Cubic Spline for a Class of Singular
Two- Point Boundary Value Problems, Journal of Applied Mathematics
and Computation, 170(2), 733-740, (2005).
[8] R. Company, E. Defez and L. Jódar, Exact and Analytic Numerical
Solution of Coupled Parabolic Mixed Problems in a Semi-Infinite
Medium, Computers and Mathematics with Applications, 47(2-3), 381-
390, (2004).
[9] M.A. Noor, E.A. Al-Said, Quartic Splines Solutions of Third-Order
Obstacle Problems, Journal of Applied Mathematics and Computation,
153(2), 307–316, (2004).
[10] E.A. Al-Said, M.A. Noor, Cubic Splines Method for a System of Third-
Order Boundary Value Problems, Journal of Applied Mathematics and
Computation, 142(2-3), 195–204, (2003).
@article{"International Journal of Engineering, Mathematical and Physical Sciences:69327", author = "Kholod M. Abualnaja", title = "Numerical Treatment of Matrix Differential Models Using Matrix Splines", abstract = "This paper consider the solution of the matrix
differential models using quadratic, cubic, quartic, and quintic
splines. Also using the Taylor’s and Picard’s matrix methods, one
illustrative example is included.
", keywords = "Matrix Splines, Cubic Splines, Quartic Splines.", volume = "8", number = "3", pages = "625-4", }
