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Neural Computing and Applications
Erschienen in: Neural Computing and Applications 7/2018

23.08.2016 | Original Article

Intelligent computing to solve fifth-order boundary value problem arising in induction motor models

verfasst von: Iftikhar Ahmad, Fayyaz Ahmad, Muhammad Asif Zahoor Raja, Hira Ilyas, Nabeela Anwar, Zarqa Azad

Erschienen in: Neural Computing and Applications | Ausgabe 7/2018

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Abstract

In this study, biologically inspired intelligent computing approached based on artificial neural networks (ANN) models optimized with efficient local search methods like sequential quadratic programming (SQP), interior point technique (IPT) and active set technique (AST) is designed to solve the higher order nonlinear boundary value problems arise in studies of induction motor. The mathematical modeling of the problem is formulated in an unsupervised manner with ANNs by using transfer function based on log-sigmoid, and the learning of parameters of ANNs is carried out with SQP, IPT and ASTs. The solutions obtained by proposed methods are compared with the reference state-of-the-art numerical results. Simulation studies show that the proposed methods are useful and effective for solving higher order stiff problem with boundary conditions. The strong motivation of this research work is to find the reliable approximate solution of fifth-order differential equation problems which are validated through strong statistical analysis.
Vorheriger Artikel Novel intuitionistic fuzzy soft multiple-attribute decision-making methods
Nächster Artikel Predictive modeling of die filling of the pharmaceutical granules using the flexible neural tree

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Literatur
1.
Karageorghis A, Phillips TN, Davies AR (1988) Spectral collocation methods for the primary two-point boundary value problem in modeling viscoelastic flows Int. J Numer Methods Eng 26:805–813CrossRefMATH
2.
Davies AR, Karageorghis A, Phillips TN (1988) Spectral Galerkin methods for the primary two-point boundary value problem in modeling viscoelastic flows Int. J Numer Methods Eng 26:647–662CrossRefMATH
3.
Siddiqi SS, Sadaf M (2015) Application of non-polynomial spline to the solution of fifth-order boundary value problems in induction motor. J Egypt Math Soc 23(1):20–26MathSciNetCrossRefMATH
4.
Agarwal RP (1986) Boundary value problems for higher order differential equations, vol 181. World Scientific, SingaporeCrossRefMATH
5.
Caglar HN, Caglar SH, Twizell EH (1999) The numerical solution of fifth-order boundary value problems with sixth degree B-spline functions. Appl Math Lett 12:25–30MathSciNetCrossRefMATH
6.
Kasi KNS, Viswanadham YS (2012) Raju Quartic B-spline collocation method for fifth-order boundary value problems. Int J Comput Appl 43:1–6
7.
Siddiqi SS, Twizell EH (1996) Spline solution of linear sixth-order boundary value problems. Int J Comput Math 60(3):295–304CrossRefMATH
8.
9.
Siddiqi SS, Akram G, Kanwal A (2011) Solution of fifth-order singularly perturbed boundary value problems using non-polynomial spline technique Euro. J Sci Res 56:415–425
10.
Ahmad I, Ahmad S, Bilal M, Anwar N (2016) Stochastic numerical treatment for solving Falkner-Skan equations using feed forward neural networks. Neural Comput Appl. doi:10.​1007/​s00521-016-2427-0
11.
Raja MAZ, Ahmad S (2014) Numerical treatment for solving one-dimensional Bratu problem using neural networks. Neural Comput Appl 24:549–561CrossRef
12.
Ahmad I, Raja MAZ, Bilal M, Ashraf F (2016) Neural network methods to solve the Lane-Emden type equations arising in thermodynamic studies of the spherical gas cloud model. Neural Comput Appl. doi:10.​1007/​s00521-016-2400-y
13.
Raja MAZ, Khan JA, Chaudhary NI, Shivanian E (2016) Reliable numerical treatment of nonlinear singular Flierl–Petviashivili equations for unbounded domain using ANN GAs, and SQP”. Appl Soft Comput 38:617–636CrossRef
14.
Raja MAZ, Samar R, Alaidarous ES, Shivanian E (2016) Bio-inspired computing platform for reliable solution of Bratu-type equations arising in the modeling of electrically conducting solids. Appl Math Model 40(11–12):5964–5977MathSciNetCrossRef
15.
Raja MAZ, Ahmad S, Samar R (2013) Neural network optimized with evolutionary computing technique for solving the 2-dimensional Bratu problem. Neural Comput Appl 23(7–8):1–12
16.
Raja MAZ, Ahmad S (2014) Numerical treatment for solving one-dimensional Bratu problem using neural networks. Neural Comput Appl 24(3–4):1–13
17.
Ahmad I, Mukhtar A (2015) Stochastic approach for the solution of multi-pantograph differential equation arising in cell-growth model. Appl Math Comput 261:360MathSciNet
18.
Raja MAZ, Ahmad I, Khan I, Syam MI, Wazwaz AM (2016) Neuro-heuristic computational intelligence for solving nonlinear pantograph systems. Front Inf Technol Electron Eng. doi:10.​1631/​FITEE.​1500393
19.
Bender CM, Milton KA, Pinsky SS, Simmons LM Jr (1989) A new perturbative approach to nonlinear problems. J Math Phys 30:1447–1455MathSciNetCrossRefMATH
20.
Ganesan N, Venkatesh K, Malathi Palani A, Rama MA (2010) Application of neural networks in diagnosing cancer disease using demographic data. Int J Comput Appl 26(1):0975–8887. doi:10.​5120/​476-783
21.
Adler I, Karmarkar N, Resende MGC, Veiga G (1989) An implementation of Karmarkar’s algorithm for linear programming. Math Program 44:297–335MathSciNetCrossRefMATH
22.
Lee P, Swaminathan R (2005) An interior point (Karmarkar) project for solving the global routing problem. Linear algebra with numerical application, vol 2005, pp 4–6
23.
24.
Fukushima M, Tseng P (2002) An implementable active-set algorithm for computing a B-stationary point of a mathematical program with linear complementarity constraints. SIAM J Optim 12(3):724–739MathSciNetCrossRefMATH
25.
Metadaten
Titel
Intelligent computing to solve fifth-order boundary value problem arising in induction motor models
verfasst von
Iftikhar Ahmad
Fayyaz Ahmad
Muhammad Asif Zahoor Raja
Hira Ilyas
Nabeela Anwar
Zarqa Azad
Publikationsdatum
23.08.2016
Verlag
Springer London
Erschienen in
Neural Computing and Applications / Ausgabe 7/2018
Print ISSN: 0941-0643
Elektronische ISSN: 1433-3058
DOI
https://doi.org/10.1007/s00521-016-2547-6

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