Analytical Solution of the Complex Polymer Equation Systems via the Homogeneous Balance Method

The homogeneous balance of undetermined coefficient method is firstly proposed to derive a more general bilinear equation of the nonlinear partial differential equation (NLPDE). By applying perturbation method, subsidiary ordinary differential equation (sub-ODE) method, and compatible condition to bilinear equation, more exact solutions of NLPDE are obtained. The KdV equation, Burgers equation, Boussinesq equation, and Sawada-Kotera equation are chosen to illustrate the validity of our method. We find that the underlying relation among the G′/G-expansion method, Hirota’s method, and HB method is a bilinear equation. The proposed method is also a standard and computable method, which can be generalized to deal with other types of NLPDE.

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Analytical Solution of the Complex Polymer Equation Systems via the Homogeneous Balance Method

Cited by 2 publications

References 11 publications

A soliton solution of the DD-Equation of the Murnaghan’s rod via the commutative hyper complex analysis

A soliton solution of the DD-Equation of the Murnaghan’s rod via the commutative hyper complex analysis

Bilinear Equation of the Nonlinear Partial Differential Equation and Its Application

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