Abstract
Owing to its high accuracy, the radial basis function (RBF) is gaining popularity in function interpolation and for solving partial differential equations (PDEs). The implementation of RBF methods is independent of the locations of the points and the dimensionality of the problems. However, the stability and accuracy of RBF methods depend significantly on the shape parameter, which is mainly affected by the basis function and the node distribution. If the shape parameter has a small value, then the RBF becomes accurate but unstable. Several approaches have been proposed in the literature to overcome the instability issue. Changing or expanding the radial basis function is one of the most commonly used approaches because it addresses the stability problem directly. However, the main issue with most of those approaches is that they require the optimization of additional parameters, such as the truncation order of the expansion, to obtain the desired accuracy. In this work, the Hermite polynomial is used to expand the RBF with respect to the shape parameter to determine a stable basis, even when the shape parameter approaches zero, and the approach does not require the optimization of any parameters. Furthermore, the Hermite polynomial properties enable the RBF to be evaluated stably even when the shape parameter equals zero. The proposed approach was benchmarked to test its reliability, and the obtained results indicate that the accuracy is independent of or weakly dependent on the shape parameter. However, the convergence depends on the order of the truncation of the expansion. Additionally, it is observed that the new approach improves accuracy and yields the accurate interpolation, derivative approximation, and PDE solution.
Highlights
IntroductionDuring the past few decades, radial basis function (RBF)-based methods have attracted researchers’
During the past few decades, radial basis function (RBF)-based methods have attracted researchers’attention as methods for interpolation and solving partial differential equations (PDEs)
The numerical solutions achieved after 1 second by utilizing the Gaussian RBF and the new Hermite expansion approaches were compared with the analytical solution over a range of shape parameter values
Summary
During the past few decades, radial basis function (RBF)-based methods have attracted researchers’. Attention as methods for interpolation and solving partial differential equations (PDEs). These methods are popular due to their simplicity and high convergence rate. Numerous approaches have been followed in the literature to address this problem.Hermite interpolation techniques and Hermite orthogonal polynomials are among the approaches that can be applied to RBF methods. Hermite techniques can be applied to RBF methods through either of two approaches. The second approach is based on the projection of the RBF on the Hermite polynomial space. These techniques are reviewed and considered in this work because they are closely related to the present contribution.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
