پیوندهای مفید
آمار
| تعداد نشریات | 31 |
| تعداد شمارهها | 710 |
| تعداد مقالات | 6,695 |
| تعداد مشاهده مقاله | 9,268,832 |
| تعداد دریافت فایل اصل مقاله | 6,372,588 |
Lie Symmetry Analysis method to first-order M-fractional differential equations | ||
| Computational Sciences and Engineering | ||
| دوره 1، شماره 1، تیر 2021، صفحه 67-77 اصل مقاله (392.22 K) | ||
| نوع مقاله: Original Article | ||
| شناسه دیجیتال (DOI): 10.22124/cse.2021.19568.1014 | ||
| نویسندگان | ||
| Mousa Ilie* ؛ Ali Khoshkenar | ||
| Department of Mathematics, Rasht Branch, Islamic Azad University, Rasht, Iran | ||
| چکیده | ||
| Finding analytical or numerical solutions of fractional differential equations is one of the bothersome and challenging issues among mathematicians and engineers, specifically in recent years. The objective of this paper is to solve linear and nonlinear fractional differential equations for instance first order linear fractional differential equation, Bernoulli, and Riccati fractional differential equations by using Lie Symmetry method, in accordance with M-fractional derivative. For each equation, some numerical examples are presented to illustrate the proposed approach. | ||
| کلیدواژهها | ||
| Truncated M-fractional derivative؛ Nonlinear M-fractional differential equations؛ Lie Symmetry method؛ Bernoulli M-fractional differential equation؛ Riccati M-fractional differential equation | ||
| مراجع | ||
|
[1] Khalil,R.,Al Horani,M.,Yousef,A. &Sababheh,M.(2014).A new definition of fractional derivative,Journal of Computational and Applied Mathematics, 264, 65-70. [2] Herrmann,R. (2011).Fractional calculus: An Introduction for Physicists,World Scientific PublishingCompany,Singapore. [3] Kilbas,A. A.,Srivastava,H. M., &Trujillo,J. J. (2006).Theory and Applications of FractionalDifferential Equations.North-Holland Mathematics Studies, Elsevier, Amsterdam, Vol. 207. [4] Podlubny,I. (1999).Fractional Differential Equations,Mathematics in Science and Engineering,Academic Press, San Diego, Vol. 198. [5] Capelas de Oliveira,E., &Tenreiro Machado,J. A. (2014).A review of definitions for fractionalderivatives and integral,Mathematical Problems in Engineering, 2014, (238459). [6] Katugampola,U. N., (2016).New fractional integral unifying six existing fractional integrals,arxiv.org/abs/1612.08596. [7] Figueiredo Camargo,R., &Capelas de Oliveira,E. (2015).Fractional Calculus (In Portuguese),EditoraLivraria da Fsica, So Paulo. [8] Kilbas,A. A.,Srivastava,H. M., &Trujillo,J. J. (2006).Theory and Applications of the FractionalDifferential Equations,Elsevier, Amsterdam,Vol. 204. [9] Katugampola,U. N. (2014).A new fractional derivative with classical properties,arXiv:1410.6535v2. [10] R. Goreno,R.,Kilbas,A. A.,Mainardi,F., &Rogosin,S. V.(2014).Mittag-Leffler Functions,RelatedTopics and Applications, Springer, Berlin. [11] Vanterler da C. Sousa,J., &E. Capelas de Oliveira,E. (2017).M-fractional derivative with classicalproperties,arXiv:1704.08187. [12] Vanterler da C. Sousa,J., &Capelas de Oliveira,E. (2018).A New Truncated M-Fractional DerivativeType Unifying Some Fractional Derivative Types with Classical Properties,International Journal ofAnalysis and Applications, 16 (1), 83-96. [13] Simmons,F. G. (1974).Differential Equations Whit Applications and Historical Notes,McGraw-Hill,Inc. New York. [14] Ilie,M.,Biazar,J., &Ayati,Z. (2018).General solution of second order fractionaldifferential equations,International Journal of Applied Mathematical Research, 7 (2),56-61. [15] Ilie,M.,Biazar,J., &Ayati,Z. (2019).Optimal Homotopy Asymptotic Method for first-orderconformable fractional differential equations,Journal of FractionalCalculus and Applications, 10 (1),33-45. [16] Ilie,M.,Biazar,J., &Ayati,Z. (2019).Analytical solutions for second-order fractional differentialequations via OHAM,Journal of Fractional Calculus and Applications, 10 (1),105-119. [17] Ilie,M.,Biazar,J., &Ayati,Z. (2018).The first integral method for solving some conformable fractionaldifferential equations,Optical and Quantum Electronics, 50 (2), https://doi.org/10.1007/s11082-017-1307-x. [18] Ilie,M.,Biazar,J., &Ayati,Z. (2018).Resonant solitons to the nonlinear Schrödinger equation withdifferent forms of nonlinearities,Optik,164,201-209. [19] Ilie,M.,Biazar,J., &Ayati,Z. (2018).Analytical study of exact traveling wave solutions for time-fractional nonlinear Schrödinger equations,Optical andQuantum Electronics, 50 (12),https://doi.org/10.1007/s11082-018-1682-y. [20] Ilie,M.,Biazar,J., &Ayati,Z. (2017).General solution of Bernoulli and Riccati fractional differentialequations based on conformable fractional derivative,International Journalof Applied MathematicalResearch, 6(2),49-51. [21] Ilie,M.,Biazar,J., &Ayati,Z. (2017).Application of the Lie Symmetry Analysis for second-orderfractional differential equations,Iranian Journal of Optimization, 9(2),79-83. [22] Ilie,M., &Khoshkenar,A. (2021).General solution of the Bernoulli and Riccati fractional differentialEquations via truncated M-fractional derivative, International Journal of Computer Mathematics,submitted 01May 2021. [23] Ilie,M.,Biazar,J., &Ayati,Z. (2018).Analytical solutions for conformable fractional Bratu-typeequations,International Journal of Applied Mathematical Research, 7 (1),15-19. [24] Ilie,M.,Biazar,J., &Ayati,Z. (2020).Neumann method for solving conformable fractional Volterraintegral equations,Computational Methods for Differential Equations, 8(1),54-68. [25] Ilie,M.,Biazar,J., &Ayati,Z. (2019).Mellin transform and conformable fractional operator:applications,SeMA Journal,76(2), 203-215,doi.org/10.1007/s40324-018-0171-3. [26] Ilie,M.,Biazar,J., &Ayati,Z. (2018).Optimal homotopy asymptotic method for conformable fractionalVolterra integral equations of the second kind,49thAnnual Iranian Mathematics Conference, August 23-26, ISC 97180-51902. [27] Ilie, M.,Navidi,M., &Khoshkenar,A. (2018).Analytical solutions for conformable fractional Volterraintegral equations of the second kind,49thAnnual Iranian Mathematics Conference, August 23-26, ISC 97180-51902. [28] Salahshour,S.,Ahmadian,A.,Abbasbandy,S., &Baleanu,D. (2018).M-fractionalderivative underinterval uncertainty: Theory, properties and applications,Chaos, Solitons and Fractals, 117,84-93. [29] Hosseini,K.,Mirzazadeh, M.,Ilie,M., &Gómez-Aguilar,JF. (2020).Biswas–Arshed equation withthe beta time derivative: optical solitons and other solutions,Optik, 217,164801. [30] Hosseini,K.,Ilie,M.,Mirzazadeh,M., &Baleanu,D. (2021).An analytic study on the approximatesolution of a nonlinear time-fractional Cauchy reaction-diffusion equation with the Mittag-Leffler law,Mathematical Methods in the Applied Sciences,https://doi.org/10.1002/mma.7059. [31] Hosseini,K.,Ilie, M.,Mirzazadeh,M., &Baleanu,D. (2020).A detailed study on a new (2+ 1)-dimensional mKdV equation involving the Caputo–Fabrizio time-fractional derivative,Advances inDifference Equations, 331,https://doi.org/10.1186/s13662-020-02789-5. [32] Hosseini,K.,Ilie, M.,Mirzazadeh,M.,Yusuf,A.,Sulaiman,T. A.,Baleanu,D., &Salahshour,S. (2021).An effective computational method to deal with a time-fractional nonlinear water wave equationin the Caputo sense,Mathematics and Computers in Simulation, 187,248-260. [33] Al Horani,M., &Khalil,R.Total fractional differentials with applications to exact fractional differentialequations, International Journal of Computer Mathematics, DOI: 10.1080/00207160.2018.1438602. [34] Saffarian,M., &Mohebbi,A.A novel ADI Galerkin spectral element method for the solution of two-dimensional time fractional subdiffusion equation,International Journal of Computer Mathematics,https://doi.org/10.1080/00207160.2020.1792450. [35] Baleanu,D.,Jleli,M.,Kumar,S., &Samet,B. (2020).A fractional derivative with two singularkernelsand application to a heat conduction problem.Advances in Difference Equations,252,https://doi.org/10.1186/s13662-020-02684-z. [36] Ilie,M.,Biazar,J., &Ayati,Z. (2018).Lie Symmetry Analysis for the solution of first-order linear andnonlinear fractional differential equations,International Journal of Applied Mathematical Research, 7 (2),37-41. [37] Arrigo,D. J. (2015).Symmetry analysis of differential equations an introduction.1nd Edition,JohnWiley & Sons, Inc. [38] Hyden,P. E. (2000).Symmetry Methods for Differential Equations (A Beginner’s Guide).CambridgeTexts in Applied Mathematics. [39] Olver,P. J. (1993).Applications of Lie groups to differential equations.2ndEdition, Springer-Verlag. | ||
|
آمار تعداد مشاهده مقاله: 542 تعداد دریافت فایل اصل مقاله: 540 |
||