Application of Higher Order Splines for Boundary Value Problems
Bringing forth a survey on recent higher order spline
techniques for solving boundary value problems in ordinary
differential equations. Here we have discussed the summary of the
articles since 2000 till date based on higher order splines like Septic,
Octic, Nonic, Tenth, Eleventh, Twelfth and Thirteenth Degree
splines. Comparisons of methods with own critical comments as
remarks have been included.
[1] M. Kumar and P. K. Srivastava, Computational Techniques for Solving
Differential Equations by Quadratic, Quartic and Octic Spline, Advances
in Engineering Software, 39 (2008) 646-653.
[2] M. Kumar and P. K. Srivastava, Computational Techniques for Solving
Differential Equations by Cubic, Quintic and Sextic Spline, International
Journal for Computational Methods in Engineering Science &
Mechanics, 10(1) (2009) 108-115.
[3] P. K. Srivastava and M. Kumar, Numerical Treatment of Nonlinear
Third Order Boundary Value Problem, Applied Mathematics, 2 (2011)
959-964.
[4] P. K. Srivastava, M. Kumar and R. N. Mohapatra, Quintic
Nonpolynomial Spline Method for the Solution of a Special Second-
Order Boundary-value Problem with engineering application, Computers
& Mathematics with Applications, 62 (4) (2011) 1707-1714.
[5] G. Akram, S. S. Siddiqi, Solution of sixth order boundary value
problems using non-polynomial spline technique, Applied Mathematics
and Computation 181 (2006) 708–720.
[6] M. El-Gamel, J.R. Cannon, J. Latour, A.I. Zayed, Sinc-Galerkin method
for solving linear sixth-order boundary-value problems, Math. Comput.
73 (247) (2003) 1325–1343.
[7] S. S. Siddiqi, E.H. Twizell, Spline solutions of linear sixth-order
boundary value problems, Int. J. Comput. Math. 60 (1996) 295–304.
[8] Siraj-ul-Islam, I. A. Tirmizi, Fazal-i-Haq, M. Azam Khan, Nonpolynomial
splines approach to the solution of sixth-order boundaryvalue
problems, Applied Mathematics and Computation 195 (2008)
270–284.
[9] M. A. Ramadan, I. F. Lashien, W. K. Zahara, A class of methods based
on a septic non-polynomial spline function for the solution of sixth-order
two-point boundary value problems, International Journal of Computer
Mathematics, 85 (2008) 759-770.
[10] M. A. Ramadan, I. F. Lashien, W. K. Zahara, Polynomial and
nonpolynomial spline approaches to the numerical solution of second
order boundary value problems, Applied Mathematics and computation,
184 (2007) 476-484.
[11] M. A. Ramadan, I. F. Lashien, W. K. Zahara, Quintic nonpolynomial
spline solutions for fourth order two-point boundary value problems
Communications in Nonlinear Science and Numerical Simulation, 14(4)
(2007) 1105-1114.
[12] J. Toomre, J.R. Zahn, J. Latour, E. A. Spiegel, Stellar convection theory
II: single-mode study of the second convection zone in A-type stars,
Astrophysics J. 207 (1976) 545–563.
[13] G. A. Glatzmaier, Numerical simulations of stellar convective dynamics
III: at the base of the convection zone, Geophysics Astrophysics Fluid
Dynamics 31 (1985) 137–150.
[14] S. Chandrasekhar, Hydrodynamic and Hydromagnetic Stability,
Clarendon Press, Oxford 1961 (Reprinted: Dover Books, New York,
1981).
[15] R. P. Agarwal, Boundary-Value Problems for Higher-Order Differential
Equations, World Scientific, Singapore, 1986.
[16] P. Baldwin, A localized instability in a Bernard layer, Appl. Anal. 24
(1987) 117–156.
[17] P. Baldwin, Asymptotic estimates of the eigenvalues of a sixth-order
boundary-value problem obtained by using global-phase integral
methods, Phil. Trans. R. Soc. Lond. A 322 (1987) 281–305.
[18] M. M. Chawala, C. P Katti, Finite difference methods for two-point
boundary-value problems involving higher-order differential equations,
BIT 19 (1979) 27–33.
[19] E. H. Twizell, A second order convergent method for sixth-order
boundary-value problems, in: R.P. Agarwal, Y.M. Chow, S.J.Wilson
(Eds.), Numerical Mathematics, Birkhhauser Verlag, Basel, 1988, pp.
495–506 (Singapore).
[20] E. H. Twizell, Boutayeb, Numerical methods for the solution of special
and general sixth-order boundary-value problems, with applications to
Benard layer eigenvalue problems, Proc. R. Soc. Lond. A. 431 (1990)
433–450.
[21] A. M. Wazwaz, The numerical solution of sixth-order boundary-value
problems by modified decomposition method, Appl. Math. Comput. 118
(2001) 311–325.
[22] Shahid S. Siddiqui, E. H. Twizell, Spline solutions of linear eighth-order
boundary-value problems, Comput. Methods Appl. Mech. Engg. 131
(1996) 309-325.
[23] Karwan H., F. Jwamer and Aryan Ali. M., Second Order Initial Value
Problem and its Eight Degree Spline Solution, World Applied Sciences
Journal 17 (12) (2012) 1694-1712.
[24] Jwamer, K. H.-F., Approximation Solution of Second Order Initial
Value Problem by Spline Function of Degree Seven. International
Journal of Contemporary Mathematical. Sciences, Bulgaria, 5 (46)
(2010) 2293 – 2309.
[25] Ghazala Akram, Shahid S. Siddiqi, Nonic spline solutions of eighth
order boundary value problems, Applied Mathematics and Computation
182 (2006) 829–845.
[26] M. Inc, D.J. Evans, An efficient approach to approximate solutions of
eighth-order boundary-value problems, Int. J. Comput. Math. 81 (6)
(2004) 685–692.
[27] A. Boutayeb, E. H. Twizell, Finite-difference methods for the solution of
eighth-order boundary-value problems, Int. J. Comput. Math. 48 (1993)
63–75.
[28] E. H. Twizell, A. Boutayeb, K. Djidjeli, Numerical methods for eighth-,
tenth- and twelfth-order eigenvalue problems arising in thermal
instability, Adv. Comput. Math. 2 (1994) 407–436.
[29] S. S. Siddiqi and G. Akram, End Conditions for Interpolatory Nonic
Splines, Southeast Asian Bulletin of Mathematics 34 (2010) 469-488.
[30] S. S. Siddiqi and E.H. Twizell, Spline solutions of linear tenth-order
boundary-value problems, Intern. J. Computer Math. 68 (1998) 345-362.
[31] S. S. Siddiqi, G. Akram, Solutions of tenth-order boundary value
problems using eleventh degree spline, Applied Mathematics and
Computation 185 (2007) 115–127.
[32] S. S. Siddiqi, G. Akram, Solution of 10th-order boundary value
problems using non-polynomial spline technique, Applied Mathematics
and Computation 190 (2007) 641–651.
[33] G. Akram, S. S. Siddiqi, Solution of eighth order boundary value
problems using non polynomial spline technique, International Journal
of Computer Mathematics, 84(3) ( 2007) 347-368.
[34] J. Rashidinia, R. Jalilian, K. Farajeyan, Non polynomial spline solutions
for special linear tenth-order boundary value problems, World Journal of
Modelling and Simulation 7(1) (2011) 40-51.
[35] S. S. Siddiqi and E. H. Twizell, Spline solutions of linear twelfth-order
boundary-value problems, Journal of Computational and Applied
Mathematics78 (1997) 371- 390.
[36] S. S. Siddiqi, Ghazala Akram, Solutions of twelfth order boundary value
problems using thirteen degree spline, Applied Mathematics and
Computation 182 (2006) 1443–1453.
[37] S. S. Siddiqi, G. Akram, Solutions of 12th order boundary value
problems using non-polynomial spline technique, Applied Mathematics
and Computation 199 (2008) 559–571.
[38] G. Akram, S. S. Siddiqi, Solution of eighth order boundary value
problems using non polynomial spline technique, Int. J. Comput. Math.
84 (3) (2007) 347–368.
[39] P. K. Srivastava, M. Kumar, and R. N. Mohapatra: Solution of Fourth
Order Boundary Value Problems by Numerical Algorithms Based on
Nonpolynomial Quintic Splines, Journal of Numerical Mathematics and
Stochastics, 4 (1) 13-25, 2012.
[40] P. K. Srivastava and M. Kumar, Numerical Algorithm Based on Quintic
Nonpolynomial Spline for Solving Third-Order Boundary value
Problems Associated with Draining and Coating Flow, Chinese Annals
of Mathematics, Series B, 33B(6), 2012, 831–840
[41] P. Singh, P. K. Srivastava, R. K. Patne, S. D. Joshi, and K. Saha,
Nonpolynomial Spline Based Empirical Mode Decomposition in the
proceedings of “International Conference on Signal Processing and
Communications” (ICSC-2013), 480-577, 978-1-4799-1607-8/13.
[42] P. K. Srivastava, Study of Differential Equations With Their Polynomial
And Nonpolynomial Spline Based Approximation, published in “Acta
Tehnica Corviniensis – Bulletin of Engineering” 7(3) (2014) 139-150.
[43] M. R. Scott, H. A. Watts, Computational solution of linear two-point
BVP via orthonormailzation, SIAM J. Numer. Anal. 14 (1977) 40–70.
[44] M.R. Scott, H.A. Watts, A systematized collection of codes for solving
two-point BVPs, Numerical Methods for Differential Systems,
Academic Press, 1976. [45] L. Watson, M.R. Scott, Solving spline-collocation approximations to
nonlinear two-point boundary value problems by a homotopy method,
Appl. Math. Comput. 24 (1987) 333–357.
[1] M. Kumar and P. K. Srivastava, Computational Techniques for Solving
Differential Equations by Quadratic, Quartic and Octic Spline, Advances
in Engineering Software, 39 (2008) 646-653.
[2] M. Kumar and P. K. Srivastava, Computational Techniques for Solving
Differential Equations by Cubic, Quintic and Sextic Spline, International
Journal for Computational Methods in Engineering Science &
Mechanics, 10(1) (2009) 108-115.
[3] P. K. Srivastava and M. Kumar, Numerical Treatment of Nonlinear
Third Order Boundary Value Problem, Applied Mathematics, 2 (2011)
959-964.
[4] P. K. Srivastava, M. Kumar and R. N. Mohapatra, Quintic
Nonpolynomial Spline Method for the Solution of a Special Second-
Order Boundary-value Problem with engineering application, Computers
& Mathematics with Applications, 62 (4) (2011) 1707-1714.
[5] G. Akram, S. S. Siddiqi, Solution of sixth order boundary value
problems using non-polynomial spline technique, Applied Mathematics
and Computation 181 (2006) 708–720.
[6] M. El-Gamel, J.R. Cannon, J. Latour, A.I. Zayed, Sinc-Galerkin method
for solving linear sixth-order boundary-value problems, Math. Comput.
73 (247) (2003) 1325–1343.
[7] S. S. Siddiqi, E.H. Twizell, Spline solutions of linear sixth-order
boundary value problems, Int. J. Comput. Math. 60 (1996) 295–304.
[8] Siraj-ul-Islam, I. A. Tirmizi, Fazal-i-Haq, M. Azam Khan, Nonpolynomial
splines approach to the solution of sixth-order boundaryvalue
problems, Applied Mathematics and Computation 195 (2008)
270–284.
[9] M. A. Ramadan, I. F. Lashien, W. K. Zahara, A class of methods based
on a septic non-polynomial spline function for the solution of sixth-order
two-point boundary value problems, International Journal of Computer
Mathematics, 85 (2008) 759-770.
[10] M. A. Ramadan, I. F. Lashien, W. K. Zahara, Polynomial and
nonpolynomial spline approaches to the numerical solution of second
order boundary value problems, Applied Mathematics and computation,
184 (2007) 476-484.
[11] M. A. Ramadan, I. F. Lashien, W. K. Zahara, Quintic nonpolynomial
spline solutions for fourth order two-point boundary value problems
Communications in Nonlinear Science and Numerical Simulation, 14(4)
(2007) 1105-1114.
[12] J. Toomre, J.R. Zahn, J. Latour, E. A. Spiegel, Stellar convection theory
II: single-mode study of the second convection zone in A-type stars,
Astrophysics J. 207 (1976) 545–563.
[13] G. A. Glatzmaier, Numerical simulations of stellar convective dynamics
III: at the base of the convection zone, Geophysics Astrophysics Fluid
Dynamics 31 (1985) 137–150.
[14] S. Chandrasekhar, Hydrodynamic and Hydromagnetic Stability,
Clarendon Press, Oxford 1961 (Reprinted: Dover Books, New York,
1981).
[15] R. P. Agarwal, Boundary-Value Problems for Higher-Order Differential
Equations, World Scientific, Singapore, 1986.
[16] P. Baldwin, A localized instability in a Bernard layer, Appl. Anal. 24
(1987) 117–156.
[17] P. Baldwin, Asymptotic estimates of the eigenvalues of a sixth-order
boundary-value problem obtained by using global-phase integral
methods, Phil. Trans. R. Soc. Lond. A 322 (1987) 281–305.
[18] M. M. Chawala, C. P Katti, Finite difference methods for two-point
boundary-value problems involving higher-order differential equations,
BIT 19 (1979) 27–33.
[19] E. H. Twizell, A second order convergent method for sixth-order
boundary-value problems, in: R.P. Agarwal, Y.M. Chow, S.J.Wilson
(Eds.), Numerical Mathematics, Birkhhauser Verlag, Basel, 1988, pp.
495–506 (Singapore).
[20] E. H. Twizell, Boutayeb, Numerical methods for the solution of special
and general sixth-order boundary-value problems, with applications to
Benard layer eigenvalue problems, Proc. R. Soc. Lond. A. 431 (1990)
433–450.
[21] A. M. Wazwaz, The numerical solution of sixth-order boundary-value
problems by modified decomposition method, Appl. Math. Comput. 118
(2001) 311–325.
[22] Shahid S. Siddiqui, E. H. Twizell, Spline solutions of linear eighth-order
boundary-value problems, Comput. Methods Appl. Mech. Engg. 131
(1996) 309-325.
[23] Karwan H., F. Jwamer and Aryan Ali. M., Second Order Initial Value
Problem and its Eight Degree Spline Solution, World Applied Sciences
Journal 17 (12) (2012) 1694-1712.
[24] Jwamer, K. H.-F., Approximation Solution of Second Order Initial
Value Problem by Spline Function of Degree Seven. International
Journal of Contemporary Mathematical. Sciences, Bulgaria, 5 (46)
(2010) 2293 – 2309.
[25] Ghazala Akram, Shahid S. Siddiqi, Nonic spline solutions of eighth
order boundary value problems, Applied Mathematics and Computation
182 (2006) 829–845.
[26] M. Inc, D.J. Evans, An efficient approach to approximate solutions of
eighth-order boundary-value problems, Int. J. Comput. Math. 81 (6)
(2004) 685–692.
[27] A. Boutayeb, E. H. Twizell, Finite-difference methods for the solution of
eighth-order boundary-value problems, Int. J. Comput. Math. 48 (1993)
63–75.
[28] E. H. Twizell, A. Boutayeb, K. Djidjeli, Numerical methods for eighth-,
tenth- and twelfth-order eigenvalue problems arising in thermal
instability, Adv. Comput. Math. 2 (1994) 407–436.
[29] S. S. Siddiqi and G. Akram, End Conditions for Interpolatory Nonic
Splines, Southeast Asian Bulletin of Mathematics 34 (2010) 469-488.
[30] S. S. Siddiqi and E.H. Twizell, Spline solutions of linear tenth-order
boundary-value problems, Intern. J. Computer Math. 68 (1998) 345-362.
[31] S. S. Siddiqi, G. Akram, Solutions of tenth-order boundary value
problems using eleventh degree spline, Applied Mathematics and
Computation 185 (2007) 115–127.
[32] S. S. Siddiqi, G. Akram, Solution of 10th-order boundary value
problems using non-polynomial spline technique, Applied Mathematics
and Computation 190 (2007) 641–651.
[33] G. Akram, S. S. Siddiqi, Solution of eighth order boundary value
problems using non polynomial spline technique, International Journal
of Computer Mathematics, 84(3) ( 2007) 347-368.
[34] J. Rashidinia, R. Jalilian, K. Farajeyan, Non polynomial spline solutions
for special linear tenth-order boundary value problems, World Journal of
Modelling and Simulation 7(1) (2011) 40-51.
[35] S. S. Siddiqi and E. H. Twizell, Spline solutions of linear twelfth-order
boundary-value problems, Journal of Computational and Applied
Mathematics78 (1997) 371- 390.
[36] S. S. Siddiqi, Ghazala Akram, Solutions of twelfth order boundary value
problems using thirteen degree spline, Applied Mathematics and
Computation 182 (2006) 1443–1453.
[37] S. S. Siddiqi, G. Akram, Solutions of 12th order boundary value
problems using non-polynomial spline technique, Applied Mathematics
and Computation 199 (2008) 559–571.
[38] G. Akram, S. S. Siddiqi, Solution of eighth order boundary value
problems using non polynomial spline technique, Int. J. Comput. Math.
84 (3) (2007) 347–368.
[39] P. K. Srivastava, M. Kumar, and R. N. Mohapatra: Solution of Fourth
Order Boundary Value Problems by Numerical Algorithms Based on
Nonpolynomial Quintic Splines, Journal of Numerical Mathematics and
Stochastics, 4 (1) 13-25, 2012.
[40] P. K. Srivastava and M. Kumar, Numerical Algorithm Based on Quintic
Nonpolynomial Spline for Solving Third-Order Boundary value
Problems Associated with Draining and Coating Flow, Chinese Annals
of Mathematics, Series B, 33B(6), 2012, 831–840
[41] P. Singh, P. K. Srivastava, R. K. Patne, S. D. Joshi, and K. Saha,
Nonpolynomial Spline Based Empirical Mode Decomposition in the
proceedings of “International Conference on Signal Processing and
Communications” (ICSC-2013), 480-577, 978-1-4799-1607-8/13.
[42] P. K. Srivastava, Study of Differential Equations With Their Polynomial
And Nonpolynomial Spline Based Approximation, published in “Acta
Tehnica Corviniensis – Bulletin of Engineering” 7(3) (2014) 139-150.
[43] M. R. Scott, H. A. Watts, Computational solution of linear two-point
BVP via orthonormailzation, SIAM J. Numer. Anal. 14 (1977) 40–70.
[44] M.R. Scott, H.A. Watts, A systematized collection of codes for solving
two-point BVPs, Numerical Methods for Differential Systems,
Academic Press, 1976. [45] L. Watson, M.R. Scott, Solving spline-collocation approximations to
nonlinear two-point boundary value problems by a homotopy method,
Appl. Math. Comput. 24 (1987) 333–357.
@article{"International Journal of Engineering, Mathematical and Physical Sciences:70205", author = "Pankaj Kumar Srivastava", title = "Application of Higher Order Splines for Boundary Value Problems", abstract = "Bringing forth a survey on recent higher order spline
techniques for solving boundary value problems in ordinary
differential equations. Here we have discussed the summary of the
articles since 2000 till date based on higher order splines like Septic,
Octic, Nonic, Tenth, Eleventh, Twelfth and Thirteenth Degree
splines. Comparisons of methods with own critical comments as
remarks have been included.", keywords = "Septic spline, Octic spline, Nonic spline, Tenth,
Eleventh, Twelfth and Thirteenth Degree spline, parametric and non-parametric
splines, thermal instability, astrophysics.", volume = "9", number = "2", pages = "111-7", }
