Differential Quadrature Method to Examine the Dynamical Behavior of Soliton Solutions to the Korteweg-de Vries Equation

Abstract: Nonlinear evolution equations are crucial for understanding the phenomena in science and technology. One such equation with periodic solutions that has applications in various fields of physics is the Korteweg-de Vries (KdV) equation. In the present work, we are concerned with the implementation of a newly defined quintic B-spline basis function in the differential quadrature method for solving the Korteweg-de Vries (KdV) equation. The results are presented using four experiments involving a single soliton and… Show more

“…Te diferential quadrature technique is a wellknown method for solving partial diferential equations that have been used with a variety of basic functions [31]. Many problems, including Fisher's equation [32], the Telegraph equation [33], the Korteweg-De Vries equation [34], the nonlinear Schrodinger equation [35], and many more, have been successfully solved numerically using this method. Tis approach has also been used for fractional diferential equations [36], indicating its applicability beyond partial diferential equations.…”

Forecasting Pollution Using Numerical Simulation Implementing Artificial Bee Colony Optimization

“…Te diferential quadrature technique is a wellknown method for solving partial diferential equations that have been used with a variety of basic functions [31]. Many problems, including Fisher's equation [32], the Telegraph equation [33], the Korteweg-De Vries equation [34], the nonlinear Schrodinger equation [35], and many more, have been successfully solved numerically using this method. Tis approach has also been used for fractional diferential equations [36], indicating its applicability beyond partial diferential equations.…”

Forecasting Pollution Using Numerical Simulation Implementing Artificial Bee Colony Optimization

Numerical simulation of Burger’s equation using a particle swarm optimization