a meshless technique based on the radial basis functions for solving systems of partial differential equations

the radial basis functions (rbfs) methods were first developed by kansa to approximate partial differential equations (pdes). the rbfs method is being truly meshfree becomes quite appealing, owing to the presence of distance function, straightforward implementation, and ease of programming in higher dimensions. another considerable advantage is the presence of a tunable free shape parameter, contained in most of the rbfs that control the accuracy of the rbfs method. here, the solution of the twodimensional system of nonlinear partial differential equations is examined numerically by a global radial basis functions collocation method (grbfcm). it can work on a set of random or uniform nodes with no need for element connectivity of input data. for the timedependent partial differential equations, a system of ordinary differential equations (odes) is derived from this scheme. like some other numerical methods, a comparison between numerical results with analytical solutions is implemented confirming the efficiency, accuracy, and simple performance of the suggested method.