We have developed and discussed essentially improved method of fundamental solutions in which there is no need to use the artificial boundary for problems of potential flow. With this the main drawback of the method was eliminated. The method has been structured by the single layer and the double layer fundamental solution with similar accuracy.
COBISS.SI-ID: 1176059
We describe the basic trands in development of meshless methods, based on radial basis functions in this chapter of the book, issued in Germany. It is devoted to scientists, engineers and as a textbook for post graduate students.
COBISS.SI-ID: 1393147
The paper presents the use of genetic programming for Jominy test modelling for 51CrV4 (DIN) spring steel. The model based on artificial intelligence was built on the basis of 74 batches and tested on 871 batches. The manufacturing of the steel can be optimally adopted to the use of the steel, based on the developed model.
COBISS.SI-ID: 1113083
The application of the mesh-free local radial basis function collocation method in solution of incompressible turbulent flow is explored in this paper. The advantages of the represented mesh-free approach are its simplicity, accuracy, similar coding in 2D and 3D, and straightforward applicability in non-uniform node arrangements.
COBISS.SI-ID: 1147899
The paper deals with solving of nonlinear Schroedinger equation. With this the application of the colocation method with radial basis functions has been enlarged to problems of quantum mechanics. This is important in multiscale modelling of the behavious of materials.
COBISS.SI-ID: 1310203