AbstractThis paper deals with a new proof of convergence of Adomian's method applied to differential equations. We also give new formulae and properties, and we suggest a simple computational form for Adomian's polynomials
AbstractA biparametric family of four-step multipoint iterative methods of order sixteen to numerica...
This article discusses a derivative-free iterative method to solve a nonlinear equation. The method ...
AbstractRelationships are explored between conventional one-step methods, a new one-step version res...
AbstractIn this paper, we give new formulae which calculate easily the Adomian's polynomials used in...
AbstractA damped oscillating convergence to a correct solution sometimes observed in decomposition m...
AbstractAn iterative non-stationary method, depending on a parameter, has been obtained for accelera...
AbstractHe’s variational iteration method is applied to the search for the solution of the reaction–...
AbstractIn this paper we extend our results of L. Casasús, W. Al-Hayani [The decomposition method fo...
AbstractThis paper generalizes the theorem on transformation of series presented in Part I to functi...
AbstractDifferential equations involving the term y−m, where m is a positive integer, are solved by ...
AbstractThe Maclaurin series is quite limited in comparison to the (Adomian) series obtained in the ...
AbstractThis paper deals with a new proof of convergence of Adomian's method applied to differential...
AbstractIn this paper, the Adomian decomposition method with Green’s function is applied to solve li...
AbstractUniform approximation of functions of a real or a complex variable by a class of linear oper...
AbstractThe Adomian decomposition method (ADM) is applied to solve both linear and nonlinear boundar...
AbstractA biparametric family of four-step multipoint iterative methods of order sixteen to numerica...
This article discusses a derivative-free iterative method to solve a nonlinear equation. The method ...
AbstractRelationships are explored between conventional one-step methods, a new one-step version res...
AbstractIn this paper, we give new formulae which calculate easily the Adomian's polynomials used in...
AbstractA damped oscillating convergence to a correct solution sometimes observed in decomposition m...
AbstractAn iterative non-stationary method, depending on a parameter, has been obtained for accelera...
AbstractHe’s variational iteration method is applied to the search for the solution of the reaction–...
AbstractIn this paper we extend our results of L. Casasús, W. Al-Hayani [The decomposition method fo...
AbstractThis paper generalizes the theorem on transformation of series presented in Part I to functi...
AbstractDifferential equations involving the term y−m, where m is a positive integer, are solved by ...
AbstractThe Maclaurin series is quite limited in comparison to the (Adomian) series obtained in the ...
AbstractThis paper deals with a new proof of convergence of Adomian's method applied to differential...
AbstractIn this paper, the Adomian decomposition method with Green’s function is applied to solve li...
AbstractUniform approximation of functions of a real or a complex variable by a class of linear oper...
AbstractThe Adomian decomposition method (ADM) is applied to solve both linear and nonlinear boundar...
AbstractA biparametric family of four-step multipoint iterative methods of order sixteen to numerica...
This article discusses a derivative-free iterative method to solve a nonlinear equation. The method ...
AbstractRelationships are explored between conventional one-step methods, a new one-step version res...
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