Unstable novel and accurate soliton wave solutions of the nonlinear biological population model

Abstract

This paper investigates the soliton wave solution of the nonlinear biological population (NBP) model by employing a novel computational scheme. The selected model for this study describes the logistics of the population because of births and deaths. Some novel structures of the NBP model’s solutions, are obtained such as exponential, trigonometric, and hyperbolic. These solutions are clarified through some distinct graphs in contour three plot, three-dimensional, and two-dimensional plots. The Hamiltonian system’s characterizations are used to check the obtained solutions’ stability. The solutions’ accuracy is checked by handling the NBP model through the variational iteration (VI) method. The matching between analytical and semi-analytical solutions shows the accuracy of the obtained solutions. The method’s performance shows its effectiveness, power, and ability to apply to many nonlinear evolution equations.