Treating Transcendental Functions in Partial Differential Equations Using the Variational Iteration Method with Bernstein Polynomials

Abstract: We aim through this paper to present an improved variational iteration method (VIM) based on Bernstein polynomials (BP) approximations to be used with transcendental functions. The key benefits gained from this modification are to reach stable and fairly accurate results and, at the same time, to expand the unknown function’s domain in partial differential equations (PDEs). The proposed approach introduces the Bernstein polynomials in the transcendental functions of nonlinear PDEs. A number of examples were in… Show more

“…Several methods were used in solving nonlinear partial differential equations, including the Adomian decomposition method, vibrational iteration method, and differential transform method [1,2]. The differential transform method (DTM) is a potent approximate analytical technique for resolving nonlinear differential equations.…”

Modified $\alpha$-Parameterized Differential Transform Method for Solving Nonlinear Generalized Gardner Equation

“…Several methods were used in solving nonlinear partial differential equations, including the Adomian decomposition method, vibrational iteration method, and differential transform method [1,2]. The differential transform method (DTM) is a potent approximate analytical technique for resolving nonlinear differential equations.…”

Modified $\alpha$-Parameterized Differential Transform Method for Solving Nonlinear Generalized Gardner Equation

“…Discretization method [13] that is other numerical method has been applied to the Volterra-Fredholm integral equations by utilizing the Bernstein polynomials. Improved variational iteration method [30] has been used for approximate solution of partial differential equations. Moreover, some operational matrix forms of the Bernstein polynomials have been generated for numerical methods.…”

Bernstein Operator Approach for Solving Linear Differential Equations

“…Chaos synchronization is an important topic of nonlinear dynamical systems and have great significance in the application of chaos such as physics, secure communication, control theory, etc [1][2][3]. There are many kinds of synchronization phenomena, for example, complete/full synchronization (CS), antisynchronization (AS), generalized synchronization (GS), lag synchronization, projective synchronization (PS), generalized projective synchronization (GPS) [4,5].…”

Projective synchronization for a cass of 6-D hyperchaotic lorenz system