https://orcid.org/0000-0002-4414-9291
References
- Kilbas AA, Srivastava HM, Trujillo JJ. Theory and applications of fractional differential equations. San Diego (CA): Elsevier; 2006.
- Miller KS, Ross B. An introduction to the fractional calculus and fractional differential equations. New York (NY): John Wiley; 1993.
- Podlubny I. Fractional differential equations. New York (NY): Academic Press; 1999.
- Qureshi S, Yusuf A. Mathematical modeling for the impacts of deforestation on wildlife species using Caputo differential operator. Chaos Solitons Fractals. 2019;126:32–40.
- Doha EH, Bhrawy AH, Ezz-Eldien SS. Efficient Chebyshev spectral methods for solving multi-term fractional orders differential equations. Appl Math Model. 2011;35:5662–5672.
- Qureshi S, Yusuf A, Shaikh AA, et al. Fractional modeling of blood ethanol concentration system with real data application. Chaos: Interdiscip J Nonlinear Sci. 2019;29(1):013143.
- Qureshi S, Yusuf A. Fractional derivatives applied to MSEIR problems: comparative study with real world data. Eur Phys J Plus. 2019;134:171.
- Magin RL. Fractional calculus models of complex dynamics in biological tissues. Comput Math Appl. 2010;59:1586–1593.
- Alam MN, Alam MM. An analytical method for solving exact solutions of a nonlinear evolution equation describing the dynamics of ionic currents along microtubules. J Taibah University Sci. 2017;11:939–948.
- Veselic' K. Damped oscillations of linear systems – a mathematical introduction. Heidelberg: Springer; 2011.
- Khan R, Ellahi R, Mohyud-Din ST, et al. Exact traveling wave solutions of fractional order Boussinesq-like equations by applying exp-function method. Res Phys. 2018;8:114–120.
- Qureshi S, Yusuf A. Modeling chickenpox disease with fractional derivatives: from Caputo to Atangana-Baleanu. Chaos Solitons Fractals. 2019;122:111–118.
- Hameeda M, Khan AA, Ellahib R, et al. Study of magnetic and heat transfer on the peristaltic transport of a fractional second grade fluid in a vertical tube. Eng Sci Technol Int J. 2015;18(3):496–502.
- Pinto CMA, Carvalho ARM. Fractional modeling of typical stages in HIV epidemics with drug-resistance. Progr Fract Differ Appl. 2015;1(2):111–122.
- Yaslan HC, Girgin E. New exact solutions for the conformable space-time fractional KdV, CDG, (2+ 1)-dimensional CBS and (2 + 1)-dimensional AKNS equations. J Taibah University Sci. 2018;12:309–314.
- Seadawy AR, Lu D, Yue C. Travelling wave solutions of the generalized nonlinear fifth-order KdV water wave equations and its stability. J Taibah University Sci. 2017;11:623–633.
- Agarwal P, El-Sayed AA. Non-standard finite difference and Chebyshev collocation methods for solving fractional diffusion equation. Phys A. 2018;500:40–49.
- Babolian E, Eftekhari A, Saadatmandi A. A Sinc-Galerkin technique for the numerical solution of a class of singular boundary value problems. J Comput Appl Math. 2015;34:45–63.
- Chen YM, Liu LQ, Li BF, et al. Numerical solution for the variable order linear cable equation with Bernstein polynomials. Appl Math Comput. 2014;238:329–341.
- Chen YM, Wei YQ, Liu DY, et al. Numerical solution for a class of nonlinear variable order fractional differential equations with Legendre wavelets. Appl Math Lett. 2015. doi:10.1016/j.aml.2015.02.010.
- Irandoust-pakchin S, Kheiri H, Abdi-mazraeh S. Efficient computational algorithms for solving one class of fractional boundary value problems. Comp Math Math Phys. 2013;53:920–932.
- Sohail A, Maqbool K, Ellahi R. Stability analysis for fractional-order partial differential equations by means of space spectral time Adams-Bashforth moulton method. Numer Methods Partial Differ Equ. 2018;34(1):19–29.
- Khan U, Ellahi R, Khan R, et al. Extracting new solitary wave solutions of Benny–Luke equation and Phi-4 equation of fractional order by using (G′/G)-expansion method. Opt Quant Electron. 2017;49:362.
- Sweilam NH, Nagy AM, El-Sayed AA. Second kind shifted Chebyshev polynomials for solving space fractional order diffusion equation. Chaos Solitons Fractals. 2015;73:141–147.
- Sweilam NH, Nagy AM, El-Sayed AA. Numerical approach for solving space fractional order diffusion equations using shifted Chebyshev polynomials of the fourth kind. Turkish J Math. 2016;40(6):1283–1297.
- Sweilam NH, Nagy AM, El-Sayed AA. Solving time-fractional order telegraph equation via Sinc-Legendre collocation method. Mediterr J Math. 2016;13:1283–1297.
- Nagy AM, El-Sayed AA. An accurate numerical technique for solving two-dimensional time fractional order diffusion equation. Int J Model Simul. 2019;39(3):214–221.
- Atanackovic TM, Janev M, Pilipovic S, et al. An expansion formula for fractional derivatives of variable order. Cent Eur J Phys. 2013;11(10):1350–1360.
- Bhrawy AH, Zaky MA. Numerical algorithm for the variable-order Caputo fractional functional differential equation. Nonlinear Dyn. 2016;85:1815–1823.
- Iqbal M, Seadawy AR, Lu D. Construction of solitary wave solutions to the nonlinear modified Kortewege-de Vries dynamical equation in unmagnetized plasma via mathematical methods. Mod Phys Lett A. 2018;33(32):1850183.
- Lu D, Seadawy AR, Iqbal M. Mathematical methods via construction of traveling and solitary wave solutions of three coupled system of nonlinear partial differential equations and their applications. Res Phys. 2018;11:1161–1171.
- Iqbal M, Seadawy AR, Lu D. Construction of solitary wave solutions to the nonlinear modified Kortewege-de Vries dynamical equation in unmagnetized plasma via mathematical methods. Mod Phys Lett A. 2018;33(37):1850217.
- Seadawy AR, Lu D, Iqbal M. Application of mathematical methods on the system of dynamical equations for the ion sound and Langmuir waves. Pramana - J Phys. 2019;93(1-10):1–12.
- Iqbal M, Seadawy AR, Lu D. Applications of nonlinear longitudinal wave equation in a magneto-electro-elastic circular rod and new solitary wave solutions. Mod Phys Lett B. 2019;33(18):1950210.
- Seadawy AR, Iqbal M, Lu D. Applications of propagation of long-wave with dissipation and dispersion in nonlinear media via solitary wave solutions of generalized Kadomtsev–Petviashvili modified equal width dynamical equation. Comput Math Appl. 2019;78:3620–3632.
- Iqbal M, Seadawy AR, Lu D, et al. Construction of bright–dark solitons and ion-acoustic solitary wave solutions of dynamical system of nonlinear wave propagation. Mod Phys Lett A. 2019;34:1950309.
- Iqbal M, Seadawy AR, Lu D, et al. Construction of a weakly nonlinear dispersion solitary wave solution for the Zakharov–Kuznetsov-modified equal width dynamical equation. Indian J Phys. 2019. doi:10.1007/s12648-019-01579-4.
- Seadawy AR, Iqbal M, Lu D. Nonlinear wave solutions of the Kudryashov–Sinelshchikov dynamical equation in mixtures liquid-gas bubbles under the consideration of heat transfer and viscosity. J Taibah University Sci. 2019;13(1):1060–1072.
- Iqbal M, Seadawy AR, Khalil OH, et al. Propagation of long internal waves in density stratified ocean for the (2 + 1)-dimensional nonlinear Nizhnik-Novikov-Vesselov dynamical equation. Res Phys. 2020;16:102838.
- El-Sayed A, El-Saka H. Numerical methods for multi-term fractional (arbitrary) orders differential equations. Appl Math Comput. 2005;160(3):683–699.
- Esmaeili S, Shamsi M. A pseudo-spectral scheme for the approximate solution of a family of fractional differential equations. Commun Nonlinear Sci Numer Simul. 2011;16:3646–3654.
- Nuruddeen RI, Nass AM. Exact solitary wave solution for the fractional classical GEW-burgers equations: an application of kudryashov method. J Taibah University Sci. 2018;12:309–314.
- Mohammadi F, Mohyud-Din ST. A fractional-order Legendre collocation method for solving the Bagley-Torvik equations. Adv Differ Equ. 2016;2016(269):1–4.
- Maleknejad K, Nouri K, Torkzadeh L. Operational matrix of fractional integration based on the shifted second kind Chebyshev polynomials for solving fractional differential equations. Mediterr J Math. 2016;13:1377–1390.
- Zhou FY, Xu X. The third kind Chebyshev wavelets collocation method for solving the time-fractional convection diffusion equations with variable coefficients. Appl Math Comput. 2016;280:11–29.
- Doha EH, Bhrawy AH, Hafez RM. Jacobi-Jacobi dual-Petrov-Galerkin method for third-and fifth-order differential equations. Math Comput Model. 2011;53:1820–1832.
- Tavares D, Almeida R, Torres DFM. Caputo derivatives of fractional variable order: numerical approximations. Commun Nonlinear Sci Numer Simul. 2016;35:69–87.
- Liu J, Li X, Wu L. An operational matrix of fractional differentiation of the second kind of Chebyshev polynomial for solving multi-term variable order fractional differential equation. Math Probl Eng. 2016;2016. Article ID 7126080, 10 pages.
- Nagy AM, Sweilam NH, El-Sayed AA. New operational matrix for solving multi-term variable order fractional differential equations. J Comp Nonlinear Dyn. 2018;13:011001–011007.
- El-Sayed AA, Agarwal P. Numerical solution of multiterm variable-order fractional differential equations via shifted Legendre polynomials. Math Meth Appl Sci. 2019;42(11):3978–3991.
- Mallawi F, Alzaidy JF, Hafez RM. Application of a Legendre collocation method to the space–time variable fractional-order advection–dispersion equation. J Taibah University Sci. 2019;13(1):324–330.