Theory and internal structure of ADER-DG method for ordinary differential equations
For numerical analysts and practitioners, it rigorously establishes stability properties of the ADER-DG method, but the method itself is not new.
The paper provides a theoretical analysis of the ADER-DG method for ODEs, proving its A-, AN-, L-, B-, BN-, and algebraic stability, and demonstrates compliance with theory via applications.
Investigation of the approximation properties, convergence, and stability of the ADER-DG method for solving an ODE system is carried out. The ADER-DG method is $A$- and $AN$-stable, $L$-stable, $B$- and $BN$-stable, and algebraically stable. Several other relations useful for an application and implementation of the ADER-DG method are proved. Applications of the ADER-DG method demonstrated compliance with the expected theoretical results.