AbstractApplication of the decomposition method and of the asymptotic decomposition method are considered for solution of nonlinear and/or stochastic partial differential equations in space and time Examples are given to show the potential for solving systems of equations even with strongly coupled boundary conditions
This thesis concerns the asymptotic behaviour for nonlinear differential equations, and also conside...
AbstractThe decomposition method is applied to the Navier-Stokes equation to provide a solution with...
AbstractThe decomposition method (G. Adomian, “Stochastic Systems,” Academic Press, New York, 1983) ...
AbstractThe author's decomposition method for the solution of operator equations which may be nonlin...
AbstractApplication of the decomposition method and of the asymptotic decomposition method are consi...
AbstractThe decomposition method can be an effective procedure for solution of nonlinear and/or stoc...
AbstractThe author's decomposition method [1] provides a new, efficient computational procedure for ...
AbstractA number of important equations of physics are shown to fit into the structure of a nonlinea...
AbstractGeneric operator equations allowing multidimensional operators are solved by a decomposition...
AbstractThe author's decomposition method using his An polynomials for the nonlinearities has been s...
AbstractWe present a further development of the decomposition method [1,2], which leads to a single ...
AbstractThe decomposition method can be an effective procedure for analytical solution of a wide cla...
AbstractExplicit solutions are calculated by the decomposition method for Burger's equation for comp...
AbstractThis paper is intended as a tutorial paper for a general scientific audience to introduce to...
AbstractNonlinear dynamical systems are shown to represent severe difficulties in modeling. When in ...
This thesis concerns the asymptotic behaviour for nonlinear differential equations, and also conside...
AbstractThe decomposition method is applied to the Navier-Stokes equation to provide a solution with...
AbstractThe decomposition method (G. Adomian, “Stochastic Systems,” Academic Press, New York, 1983) ...
AbstractThe author's decomposition method for the solution of operator equations which may be nonlin...
AbstractApplication of the decomposition method and of the asymptotic decomposition method are consi...
AbstractThe decomposition method can be an effective procedure for solution of nonlinear and/or stoc...
AbstractThe author's decomposition method [1] provides a new, efficient computational procedure for ...
AbstractA number of important equations of physics are shown to fit into the structure of a nonlinea...
AbstractGeneric operator equations allowing multidimensional operators are solved by a decomposition...
AbstractThe author's decomposition method using his An polynomials for the nonlinearities has been s...
AbstractWe present a further development of the decomposition method [1,2], which leads to a single ...
AbstractThe decomposition method can be an effective procedure for analytical solution of a wide cla...
AbstractExplicit solutions are calculated by the decomposition method for Burger's equation for comp...
AbstractThis paper is intended as a tutorial paper for a general scientific audience to introduce to...
AbstractNonlinear dynamical systems are shown to represent severe difficulties in modeling. When in ...
This thesis concerns the asymptotic behaviour for nonlinear differential equations, and also conside...
AbstractThe decomposition method is applied to the Navier-Stokes equation to provide a solution with...
AbstractThe decomposition method (G. Adomian, “Stochastic Systems,” Academic Press, New York, 1983) ...