1.The fundamentals of mathematical and physical modeling, basic principles, types of methods.
2.Basic equations and the relationship of the mathematical models.
3.Basic constitutive models of the behavior of soils and rocks.
4.Finite element method and its application in solving problems in the field of rock engineering
5.Characteristics and capabilities of the boundary element method
6.Finite difference method, principles, applications
7.Distinct element method, principles, application options
8.Stochastic modeling methods (Monte Carlo simulation method, LHS method)
9.Back analysis and its use for the reliable determination of the characteristics of the geological environment
2.Basic equations and the relationship of the mathematical models.
3.Basic constitutive models of the behavior of soils and rocks.
4.Finite element method and its application in solving problems in the field of rock engineering
5.Characteristics and capabilities of the boundary element method
6.Finite difference method, principles, applications
7.Distinct element method, principles, application options
8.Stochastic modeling methods (Monte Carlo simulation method, LHS method)
9.Back analysis and its use for the reliable determination of the characteristics of the geological environment