Fórmulas de cuadratura para el cálculo de la integral fraccional de Riemann-Liouville
Palabras clave:
Fórmula de cuadratura, integración fraccional, cálculo fraccional, integral fraccional de Riemann-LiouvilleResumen
Las fórmulas en cuadratura para la integral fraccional de Riemann-Liouville se investigan en este artículo. Se introduce un operador lineal que asocia ] , [ ) ( baCx ??? un polinomio n n P (?; x)?H que satisface la condición ( )( ) ( )( ) a n j a j I P x I ? x ? ? + + =, n j , 0 = donde: j x son puntos de Chebyshev. El integrando es aproximado por un polinomio algebraico. Se deriva la fórmula del término restante para la fórmula de cuadratura. Las fórmulas en cuadratura obtenidas se verifican usando el sistema de álgebra computacional Wolfram Mathematica.
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Anastassiou, G. (2017). On left multidimensional Riemann-Liouville fractional integral // Journal of Computational Analysis and Applications, 23(2), 239-248.
Bachher, M., Sarkar, N., Lahiri, A. (2015). Fractional order thermoelastic interactions in an infinite porous material due to distributed time-dependent heat sources // Meccanica, 50 (8), 2167-2178
Baleanu D., Agarwal P., Parmar R. K., Alqurashi M. M., Salahshour S. (2017). Extension of the fractional derivative operator of the Riemann- Liouville // Journal of Nonlinear Sciences and Applications, 10 (6) 2914-2924.
Chadha, A., Pandey, D. N. (2017). Approximations of Solutions of a Neutral Fractional Integro-Differential Equation // Differential Equations and Dynamical Systems, 25 (1), 117-133.
Colinas-Armijo N., Di Paola M. (2018). Step-by-step integration for fractional operators // Communications in Nonlinear Science and Numerical Simulation. , 59, 292-305.
DEMIYEVA A.G. (2017). Custom in the system of sources of entrepreneurial law of the Russian Federation and international practice (by the example of the Eeu), Astra Salvensis, Supplement No. 10, p. 43-49.
Evans R. M., Katugampola U. N., Edwards D. A. (2017). Applications of fractional calculus in solving Abel-type integral equations: Surface-volume reaction problem // Computers & Mathematics with Applications. 73 (6), 1346- 1362.
Ezzat, M. A., Sabbah, A. S., El-Bary, A. A., Ezzat, S. M. (2015). Thermoelectric Viscoelastic Fluid with Fractional Integral and Derivative Heat Transfer // Advances in Applied Mathematics and Mechanics, 7 (4), 528-548
Ezz-Eldien S. S., Doha E. H., Bhrawy A. H., El- Kalaawy A. A., Machado J. A. T. (2018). A new operational approach for solving fractional variational problems depending on indefinite integrals // Communications in Nonlinear Science and Numerical Simulation. 57, 246-263.
Galimyanov A. F. Gilemzyanov A.F., Minnegalieva C.B. (2017). Square formulas for Weil fractional integral based on trigonometric polynom. // J. Fundam. Appl. Sci., 9(1s), 1933- 1944.
Gonzalez E. A., Petras I. (2015). Advances in Fractional Calculus: Control and Signal Processing Applications // 2015 16th International Carpathian Control Conference (Iccc). 147-152.
Kaplan, M., Bekir, A. (2016). A novel analytical method for time-fractional differential equations // Optik, 127 (20), 8209-8214
Liu, D. Y., Gibaru, O., Perruquetti, W., Laleg- Kirati, T. M. (2015). Fractional Order Differentiation by Integration and Error Analysis in Noisy Environment // Ieee Transactions on Automatic Control, 60(11) 2945-2960
Mirzaee, F., Alipour, S. (2018). Approximate solution of nonlinear quadratic integral equations of fractional order via piecewise linear functions // Journal of Computational and Applied Mathematics, 331, 217-227
Nemati, A., Yousefi, S. A. (2017). A numerical scheme for solving two-dimensional fractional optimal control problems by the Ritz method combined with fractional operational matrix // Ima Journal of Mathematical Control and Information, 34 (4), 1079-1097
Ortigueira, M. D., Machado, J. A. T. (2015). What is a fractional derivative? // Journal of Computational Physics, 293, 4-13
Pospisil, M, Skripkova, L. P. (2016). Sturm's theorems for conformable fractional differential equations // Mathematical Communications, 21 (2), 273-281
Sudsutad, W., Ntouyas, S. K., Tariboon, J. (2016). On mixed type Riemann-Liouville and Hadamard fractional integral inequalities // Journal of Computational Analysis and Applications, (21), 299-314.
Toufik, M., Atangana, A. (2017). New numerical approximation of fractional derivative with non-local and non-singular kernel: Application to chaotic models // European Physical Journal Plus, 132 (10)
Villalobos Antúnez J.V. (2015). Tecnociencia, derecho y sociedad. Pilares de una modernidad inacabada, Opción, vol. 31, núm. 76, enero-abril, pp. 5-12.
Zedan, H. A., Tantawy, S. S., Sayed, Y. M. (2017). New Solutions for System of Fractional Integro-Differential Equations and Abel's Integral Equations by Chebyshev Spectral Method // Mathematical Problems in Engineering, 13
Zeng, F. H. , Zhang, Z. Q., Karniadakis, G. E. (2017). Second-order numerical methods for multi-term fractional differential equations: Smooth and non-smooth solutions // Computer Methods in Applied Mechanics and Engineering, 327, 478-502
Bachher, M., Sarkar, N., Lahiri, A. (2015). Fractional order thermoelastic interactions in an infinite porous material due to distributed time-dependent heat sources // Meccanica, 50 (8), 2167-2178
Baleanu D., Agarwal P., Parmar R. K., Alqurashi M. M., Salahshour S. (2017). Extension of the fractional derivative operator of the Riemann- Liouville // Journal of Nonlinear Sciences and Applications, 10 (6) 2914-2924.
Chadha, A., Pandey, D. N. (2017). Approximations of Solutions of a Neutral Fractional Integro-Differential Equation // Differential Equations and Dynamical Systems, 25 (1), 117-133.
Colinas-Armijo N., Di Paola M. (2018). Step-by-step integration for fractional operators // Communications in Nonlinear Science and Numerical Simulation. , 59, 292-305.
DEMIYEVA A.G. (2017). Custom in the system of sources of entrepreneurial law of the Russian Federation and international practice (by the example of the Eeu), Astra Salvensis, Supplement No. 10, p. 43-49.
Evans R. M., Katugampola U. N., Edwards D. A. (2017). Applications of fractional calculus in solving Abel-type integral equations: Surface-volume reaction problem // Computers & Mathematics with Applications. 73 (6), 1346- 1362.
Ezzat, M. A., Sabbah, A. S., El-Bary, A. A., Ezzat, S. M. (2015). Thermoelectric Viscoelastic Fluid with Fractional Integral and Derivative Heat Transfer // Advances in Applied Mathematics and Mechanics, 7 (4), 528-548
Ezz-Eldien S. S., Doha E. H., Bhrawy A. H., El- Kalaawy A. A., Machado J. A. T. (2018). A new operational approach for solving fractional variational problems depending on indefinite integrals // Communications in Nonlinear Science and Numerical Simulation. 57, 246-263.
Galimyanov A. F. Gilemzyanov A.F., Minnegalieva C.B. (2017). Square formulas for Weil fractional integral based on trigonometric polynom. // J. Fundam. Appl. Sci., 9(1s), 1933- 1944.
Gonzalez E. A., Petras I. (2015). Advances in Fractional Calculus: Control and Signal Processing Applications // 2015 16th International Carpathian Control Conference (Iccc). 147-152.
Kaplan, M., Bekir, A. (2016). A novel analytical method for time-fractional differential equations // Optik, 127 (20), 8209-8214
Liu, D. Y., Gibaru, O., Perruquetti, W., Laleg- Kirati, T. M. (2015). Fractional Order Differentiation by Integration and Error Analysis in Noisy Environment // Ieee Transactions on Automatic Control, 60(11) 2945-2960
Mirzaee, F., Alipour, S. (2018). Approximate solution of nonlinear quadratic integral equations of fractional order via piecewise linear functions // Journal of Computational and Applied Mathematics, 331, 217-227
Nemati, A., Yousefi, S. A. (2017). A numerical scheme for solving two-dimensional fractional optimal control problems by the Ritz method combined with fractional operational matrix // Ima Journal of Mathematical Control and Information, 34 (4), 1079-1097
Ortigueira, M. D., Machado, J. A. T. (2015). What is a fractional derivative? // Journal of Computational Physics, 293, 4-13
Pospisil, M, Skripkova, L. P. (2016). Sturm's theorems for conformable fractional differential equations // Mathematical Communications, 21 (2), 273-281
Sudsutad, W., Ntouyas, S. K., Tariboon, J. (2016). On mixed type Riemann-Liouville and Hadamard fractional integral inequalities // Journal of Computational Analysis and Applications, (21), 299-314.
Toufik, M., Atangana, A. (2017). New numerical approximation of fractional derivative with non-local and non-singular kernel: Application to chaotic models // European Physical Journal Plus, 132 (10)
Villalobos Antúnez J.V. (2015). Tecnociencia, derecho y sociedad. Pilares de una modernidad inacabada, Opción, vol. 31, núm. 76, enero-abril, pp. 5-12.
Zedan, H. A., Tantawy, S. S., Sayed, Y. M. (2017). New Solutions for System of Fractional Integro-Differential Equations and Abel's Integral Equations by Chebyshev Spectral Method // Mathematical Problems in Engineering, 13
Zeng, F. H. , Zhang, Z. Q., Karniadakis, G. E. (2017). Second-order numerical methods for multi-term fractional differential equations: Smooth and non-smooth solutions // Computer Methods in Applied Mechanics and Engineering, 327, 478-502
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Publicado
2018-08-30
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Galimyanov, A. F., Gilemzyanov, A. F., & Minnegalieva, C. B. (2018). Fórmulas de cuadratura para el cálculo de la integral fraccional de Riemann-Liouville. Amazonia Investiga, 7(15), 74–80. Recuperado a partir de https://amazoniainvestiga.info/index.php/amazonia/article/view/400
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