Improved Jacobi Matrix Method for Solving Multi-Functional Integro-Differential Equations with Mixed Delays

Muhammet Mustafa Bahşı; Mehmet Çevik

Araştırma Makalesi

Yıl 2020, Cilt: 16 Sayı: 4, 393 - 401, 30.12.2020

Muhammet Mustafa Bahşı Mehmet Çevik

Öz

Kaynakça

1. Wazwaz, AM. Linear and Nonlinear Integral Equations Higher Education Press, Springer-Verlag, Beijing, Berlin, Heidelberg, 2011; pp 639.
2. Kolmanovskii, V, Myshkis, A. Introduction to the Theory and Applications of Functional Differential Equations. Kluger Academic Publishers, Dordrecht, Boston, London, 1999; pp 278.
3. Oğuz, C, Sezer. M. 2015. Chelyshkov collocation method for a class of mixed functional integro-differential equations. Applied Mathematics and Computation; 259: 943-954.
4. Farshid, M, Bimesl, S, Tohidi, E. 2016. A numerical framework for solving high-order pantograph-delay Volterra integro-differential equations. Kuwait Journal of Science; 43.1.
5. Kürkçü, ÖK, Aslan, E, Sezer, M. 2016. A numerical approach with error estimation to solve general integro-differential–difference equations using Dickson polynomials. Applied Mathematics and Computation; 276: 324-339.
6. Yüzbaşı, Ş. 2014. Laguerre approach for solving pantograph-type Volterra integro-differential equations. Applied Mathematics and Computation; 232: 1183-1199.
7. Reutskiy, SY. 2016. The backward substitution method for multipoint problems with linear Volterra–Fredholm integro-differential equations of the neutral type. Journal of Computational and Applied Mathematics; 296: 724-738.
8. Bahşı, MM, Çevik, M, Kurt Bahşı A, Sezer M. 2016. Improved Jacobi Matrix Method for the numerical solution Fredholm Integro-Differential-Difference Equations. Mathematical Sciences.
9. Bahşı, MM, Çevik M, Sezer M. 2018. Jacobi polynomial solutions of Volterra integro-differential equations with weakly singular kernel. New Trends in Mathematical Sciences; 6.3: 24-38.
10. Şahin, M, Sezer, M. 2018. Pell-Lucas Collocation Method for Solving High-Order Functional Differential Equations with Hybrid Delays. Celal Bayar Üniversitesi Fen Bilimleri Dergisi; 14.2: 141-149.
11. Bellour, A, Bousselsal, M. 2014. Numerical solution of delay integro‐differential equations by using Taylor collocation method. Mathematical Methods in the Applied Sciences; 37.10: 1491-1506.
12. Vilmoš H. On Polynomial Spline Collocation Methods for Neutral Volterra Integro–Differential Equations with Delay Arguments. Proceedings of the 1. Conference on Applied Mathematics and Computation, Dubrovnik, Croatia, 1999.

Improved Jacobi Matrix Method for Solving Multi-Functional Integro-Differential Equations with Mixed Delays

Yıl 2020, Cilt: 16 Sayı: 4, 393 - 401, 30.12.2020

Muhammet Mustafa Bahşı Mehmet Çevik

Öz

In this study, we suggested a novel approach for solving multi-functional integro-differential equations with mixed delays, by using orthogonal Jacobi polynomials. These equations include various classes of differential equations, integro-differential equations and delay differential equations. This new algorithm proposes solutions for each class of these equations and combinations of equation classes, such as Volterra integro-differential equation, Fredholm integro-differential equation, pantograph-delay differential equations. Since the present method is based on fundamental matrix relations and collocation points, numerical solutions can be obtained easily by means of symbolic computation programs. We developed an error estimation algorithm based on the present method for the verification of solutions. Application of the method is illustrated by four numerical examples.

Anahtar Kelimeler

Jacobi matrix method, functional integro-differential equation, error estimation algorithm

Kaynakça

1. Wazwaz, AM. Linear and Nonlinear Integral Equations Higher Education Press, Springer-Verlag, Beijing, Berlin, Heidelberg, 2011; pp 639.
2. Kolmanovskii, V, Myshkis, A. Introduction to the Theory and Applications of Functional Differential Equations. Kluger Academic Publishers, Dordrecht, Boston, London, 1999; pp 278.
3. Oğuz, C, Sezer. M. 2015. Chelyshkov collocation method for a class of mixed functional integro-differential equations. Applied Mathematics and Computation; 259: 943-954.
4. Farshid, M, Bimesl, S, Tohidi, E. 2016. A numerical framework for solving high-order pantograph-delay Volterra integro-differential equations. Kuwait Journal of Science; 43.1.
5. Kürkçü, ÖK, Aslan, E, Sezer, M. 2016. A numerical approach with error estimation to solve general integro-differential–difference equations using Dickson polynomials. Applied Mathematics and Computation; 276: 324-339.
6. Yüzbaşı, Ş. 2014. Laguerre approach for solving pantograph-type Volterra integro-differential equations. Applied Mathematics and Computation; 232: 1183-1199.
7. Reutskiy, SY. 2016. The backward substitution method for multipoint problems with linear Volterra–Fredholm integro-differential equations of the neutral type. Journal of Computational and Applied Mathematics; 296: 724-738.
8. Bahşı, MM, Çevik, M, Kurt Bahşı A, Sezer M. 2016. Improved Jacobi Matrix Method for the numerical solution Fredholm Integro-Differential-Difference Equations. Mathematical Sciences.
9. Bahşı, MM, Çevik M, Sezer M. 2018. Jacobi polynomial solutions of Volterra integro-differential equations with weakly singular kernel. New Trends in Mathematical Sciences; 6.3: 24-38.
10. Şahin, M, Sezer, M. 2018. Pell-Lucas Collocation Method for Solving High-Order Functional Differential Equations with Hybrid Delays. Celal Bayar Üniversitesi Fen Bilimleri Dergisi; 14.2: 141-149.
11. Bellour, A, Bousselsal, M. 2014. Numerical solution of delay integro‐differential equations by using Taylor collocation method. Mathematical Methods in the Applied Sciences; 37.10: 1491-1506.
12. Vilmoš H. On Polynomial Spline Collocation Methods for Neutral Volterra Integro–Differential Equations with Delay Arguments. Proceedings of the 1. Conference on Applied Mathematics and Computation, Dubrovnik, Croatia, 1999.

Toplam 12 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Konular	Mühendislik
Bölüm	Makaleler
Yazarlar	Muhammet Mustafa Bahşı Mehmet Çevik
Yayımlanma Tarihi	30 Aralık 2020
Yayımlandığı Sayı	Yıl 2020 Cilt: 16 Sayı: 4

Kaynak Göster

APA	Bahşı, M. M., & Çevik, M. (2020). Improved Jacobi Matrix Method for Solving Multi-Functional Integro-Differential Equations with Mixed Delays. Celal Bayar University Journal of Science, 16(4), 393-401.
AMA	Bahşı MM, Çevik M. Improved Jacobi Matrix Method for Solving Multi-Functional Integro-Differential Equations with Mixed Delays. CBUJOS. Aralık 2020;16(4):393-401.
Chicago	Bahşı, Muhammet Mustafa, ve Mehmet Çevik. “Improved Jacobi Matrix Method for Solving Multi-Functional Integro-Differential Equations With Mixed Delays”. Celal Bayar University Journal of Science 16, sy. 4 (Aralık 2020): 393-401.
EndNote	Bahşı MM, Çevik M (01 Aralık 2020) Improved Jacobi Matrix Method for Solving Multi-Functional Integro-Differential Equations with Mixed Delays. Celal Bayar University Journal of Science 16 4 393–401.
IEEE	M. M. Bahşı ve M. Çevik, “Improved Jacobi Matrix Method for Solving Multi-Functional Integro-Differential Equations with Mixed Delays”, CBUJOS, c. 16, sy. 4, ss. 393–401, 2020.
ISNAD	Bahşı, Muhammet Mustafa - Çevik, Mehmet. “Improved Jacobi Matrix Method for Solving Multi-Functional Integro-Differential Equations With Mixed Delays”. Celal Bayar University Journal of Science 16/4 (Aralık 2020), 393-401.
JAMA	Bahşı MM, Çevik M. Improved Jacobi Matrix Method for Solving Multi-Functional Integro-Differential Equations with Mixed Delays. CBUJOS. 2020;16:393–401.
MLA	Bahşı, Muhammet Mustafa ve Mehmet Çevik. “Improved Jacobi Matrix Method for Solving Multi-Functional Integro-Differential Equations With Mixed Delays”. Celal Bayar University Journal of Science, c. 16, sy. 4, 2020, ss. 393-01.
Vancouver	Bahşı MM, Çevik M. Improved Jacobi Matrix Method for Solving Multi-Functional Integro-Differential Equations with Mixed Delays. CBUJOS. 2020;16(4):393-401.

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