# | Title | Journal | Year | Citations |
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1 | Selection of variables for the purpose of regionalization of Iran's precipitation climate using multivariate methods | Journal of Hydrology | 2004 | 157 |
2 | Abundant soliton solutions for the Kundu–Eckhaus equation via tan(ϕ(ξ))-expansion method | Optik | 2016 | 113 |
3 | Novel multiple soliton solutions for some nonlinear PDEs via multiple Exp-function method | Results in Physics | 2021 | 90 |
4 | Optical soliton solutions for the Gerdjikov–Ivanov model via tan(ϕ/2)-expansion method | Optik | 2016 | 88 |
5 | Numerical solution of fuzzy differential equations under generalized differentiability | Nonlinear Analysis: Hybrid Systems | 2009 | 87 |
6 | Application of tan(ϕ/2)-expansion method for solving the Biswas–Milovic equation for Kerr law nonlinearity | Optik | 2016 | 78 |
7 | Lump-type solutions and interaction phenomenon to the bidirectional Sawada–Kotera equation | Pramana - Journal of Physics | 2019 | 74 |
8 | Optical solitons with Biswas-Milovic equation for Kerr law nonlinearity | European Physical Journal Plus | 2015 | 66 |
9 | N-lump and interaction solutions of localized waves to the (2+1)-dimensional variable-coefficient Caudrey–Dodd–Gibbon–Kotera–Sawada equation | Journal of Geometry and Physics | 2020 | 64 |
10 | The analytical study of solitons to the nonlinear Schrödinger equation with resonant nonlinearity | Optik | 2017 | 56 |
11 | Dispersive dark optical soliton with Tzitzéica type nonlinear evolution equations arising in nonlinear optics | Optical and Quantum Electronics | 2016 | 52 |
12 | Study of the Analytical Treatment of the (2+1)-Dimensional Zoomeron, the Duffing and the SRLW Equations via a New Analytical Approach | International Journal of Applied and Computational Mathematics | 2016 | 51 |
13 | A new analytical approach to solve some of the fractional-order partial differential equations | Indian Journal of Physics | 2017 | 49 |
14 | Solitary wave and periodic wave solutions for Burgers, Fisher, Huxley and combined forms of these equations by the (G ′ /G)-expansion method | Pramana - Journal of Physics | 2015 | 47 |
15 | Periodic type and periodic cross-kink wave solutions to the (2 + 1)-dimensional breaking soliton equation arising in fluid dynamics | Modern Physics Letters B | 2019 | 47 |
16 | Dark wave, rogue wave and perturbation solutions of Ivancevic option pricing model | Nonlinear Dynamics | 2021 | 47 |
17 | Distributionally Robust Chance-Constrained Transactive Energy Framework for Coupled Electrical and Gas Microgrids | IEEE Transactions on Industrial Electronics | 2021 | 44 |
18 | Sensitivity analysis in linear optimization: Invariant support set intervals | European Journal of Operational Research | 2006 | 43 |
19 | Numerical solution of fuzzy differential equations by Nyström method | Chaos, Solitons and Fractals | 2009 | 43 |
20 | Four techniques based on the B‐spline expansion and the collocation approach for the numerical solution of the Lane–Emden equation | Mathematical Methods in the Applied Sciences | 2013 | 43 |
21 | New Improvement of the Expansion Methods for Solving the Generalized Fitzhugh-Nagumo Equation with Time-Dependent Coefficients | International Journal of Engineering Mathematics | 2015 | 40 |
22 | New exact solutions for nematicons in liquid crystals by the $$\tan (\phi /2)$$-expansion method arising in fluid mechanics | European Physical Journal Plus | 2020 | 33 |
23 | Mixed finite difference and Galerkin methods for solving Burgers equations using interpolating scaling functions | Mathematical Methods in the Applied Sciences | 2014 | 29 |
24 | Analytical lie group approach for solving fractional integro-differential equations | Communications in Nonlinear Science and Numerical Simulation | 2017 | 29 |
25 | Numerical piecewise approximate solution of Fredholm integro-differential equations by the Tau method | Applied Mathematical Modelling | 2005 | 27 |
26 | Collocation method for the numerical solutions of Lane–Emden type equations using cubic Hermite spline functions | Mathematical Methods in the Applied Sciences | 2014 | 26 |
27 | On fractional backward differential formulas for fractional delay differential equations with periodic and anti-periodic conditions | Applied Numerical Mathematics | 2017 | 26 |
28 | An Efficient Alternating Direction Explicit Method for Solving a Nonlinear Partial Differential Equation | Mathematical Problems in Engineering | 2020 | 25 |
29 | Existence and Uniqueness Results for Two-Term Nonlinear Fractional Differential Equations via a Fixed Point Technique | Journal of Mathematics | 2021 | 25 |
30 | A Tau–like numerical method for solving fractional delay integro–differential equations | Applied Numerical Mathematics | 2020 | 24 |
31 | Periodic wave solutions and stability analysis for the (3+1)-D potential-YTSF equation arising in fluid mechanics | International Journal of Computer Mathematics | 2021 | 24 |
32 | Investigating One-, Two-, and Triple-Wave Solutions via Multiple Exp-Function Method Arising in Engineering Sciences | Advances in Mathematical Physics | 2020 | 24 |
33 | Trace formula and inverse nodal problem for a conformable fractional Sturm-Liouville problem | Inverse Problems in Science and Engineering | 2020 | 22 |
34 | Multiple rogue wave and solitary solutions for the generalized BK equation via Hirota bilinear and SIVP schemes arising in fluid mechanics | Communications in Theoretical Physics | 2020 | 22 |
35 | Solving a class of boundary value problems and fractional Boussinesq-like equation with β-derivatives by fractional-order exponential trial functions | Journal of Ocean Engineering and Science | 2020 | 21 |
36 | Fractional order Alpert multiwavelets for discretizing delay fractional differential equation of pantograph type | Applied Numerical Mathematics | 2021 | 21 |
37 | Comparison between the generalized tanh–coth and the (G′/G)-expansion methods for solving NPDEs and NODEs | Pramana - Journal of Physics | 2016 | 20 |
38 | Sparse representation of system of Fredholm integro-differential equations by using alpert multiwavelets | Computational Mathematics and Mathematical Physics | 2015 | 18 |
39 | Application of the ITEM for the modified dispersive water-wave system | Optical and Quantum Electronics | 2017 | 18 |
40 | M-lump, interaction between lumps and stripe solitons solutions to the (2+1)-dimensional KP-BBM equation | European Physical Journal Plus | 2020 | 18 |
41 | Existence and uniqueness of positive solutions for boundary value problems of fractional differential equations | Filomat | 2017 | 18 |
42 | Active Constraint Set Invariancy Sensitivity Analysis in Linear Optimization | Journal of Optimization Theory and Applications | 2007 | 17 |
43 | Multi-Waves, Breathers, Periodic and Cross-Kink Solutions to the (2+1)-Dimensional Variable-Coefficient Caudrey-Dodd-Gibbon-Kotera-Sawada Equation | Journal of Ocean University of China | 2021 | 17 |
44 | Characteristics of the new multiple rogue wave solutions to the fractional generalized CBS-BK equation | Journal of Advanced Research | 2022 | 17 |
45 | Multiple rogue wave, lump‐periodic, lump‐soliton, and interaction betweenk‐lump andk‐stripe soliton solutions for the generalized KP equation | Mathematical Methods in the Applied Sciences | 2021 | 16 |
46 | Numerical solution ofnth-order integro-differential equations using trigonometric wavelets | Mathematical Methods in the Applied Sciences | 2011 | 15 |
47 | One-, two- and three-soliton, periodic and cross-kink solutions to the (2 + 1)-D variable-coefficient KP equation | Modern Physics Letters B | 2020 | 15 |
48 | Analysis of time-varying delay systems by hybrid of block-pulse functions and biorthogonal multiscaling functions | International Journal of Control | 2015 | 14 |
49 | Optimal control of linear time‐delay systems by a hybrid of block‐pulse functions and biorthogonal cubic Hermite spline multiwavelets | Optimal Control Applications and Methods | 2018 | 14 |
50 | Biorthogonal multiwavelets on the interval for solving multidimensional fractional optimal control problems with inequality constraint | Optimal Control Applications and Methods | 2020 | 14 |