This paper deals with the accuracy of time integration methods for linear dynamics when applied near the resonance condition. An approach for the analysis is considered which allows spurious resonance conditions to be detected. The analysis of Newmark methods shows the existence of such conditions which can adversely affect the quality of numerical computations, As an alternative, a higher order algorithm, which can be viewed as a generalization of the trapezoidal rule, is investigated. The analysis reveals that the spurious disturbance near the resonance condition is greatly reduced. The reported numerical tests confirm the theoretical predictions and demonstrate that high-quality simulations can be obtained by means of higher order algori...
When solving the equations of structural dynamics using direct time integration methods, algorithmic...
A simple explicit solution technique for problems in structural dynamics, based on a Modified Trapez...
International audienceIn the first talk, numerical time integration methods will be presented for no...
This paper deals with the accuracy of time integration methods for linear dynamics when applied near...
Most commonly used second-order-accurate, dissipative time integration algorithms for structural dyn...
Most commonly used second-order-accurate, dissipative time integration algorithms for structural dyn...
THE BEHAVIOR OF DISSIPATIVE TIME INTEGRATIONMETHODS NEAR THE RESONANCE CONDITION IS ANALYZE
In this paper we look at the performance of trigonometric integrators applied to highly oscillatory ...
This study deals with several time integration algorithms in structural dynamics. We focus on their ...
This paper describes a new class of algorithms for integrating linear second order equations, and th...
One of the most difficult computer simulation problems is the simulation of dynamic systems which in...
General procedures are presented for the use of higher-order approximations of a system\u27s dynamic...
This paper describes a modal weighting technique that improves the stability characteristics of expl...
International audienceThis paper deals with the accuracy of a numerical time integration scheme, the...
Three structure-dependent integration methods have been developed for solving equations of motion, w...
When solving the equations of structural dynamics using direct time integration methods, algorithmic...
A simple explicit solution technique for problems in structural dynamics, based on a Modified Trapez...
International audienceIn the first talk, numerical time integration methods will be presented for no...
This paper deals with the accuracy of time integration methods for linear dynamics when applied near...
Most commonly used second-order-accurate, dissipative time integration algorithms for structural dyn...
Most commonly used second-order-accurate, dissipative time integration algorithms for structural dyn...
THE BEHAVIOR OF DISSIPATIVE TIME INTEGRATIONMETHODS NEAR THE RESONANCE CONDITION IS ANALYZE
In this paper we look at the performance of trigonometric integrators applied to highly oscillatory ...
This study deals with several time integration algorithms in structural dynamics. We focus on their ...
This paper describes a new class of algorithms for integrating linear second order equations, and th...
One of the most difficult computer simulation problems is the simulation of dynamic systems which in...
General procedures are presented for the use of higher-order approximations of a system\u27s dynamic...
This paper describes a modal weighting technique that improves the stability characteristics of expl...
International audienceThis paper deals with the accuracy of a numerical time integration scheme, the...
Three structure-dependent integration methods have been developed for solving equations of motion, w...
When solving the equations of structural dynamics using direct time integration methods, algorithmic...
A simple explicit solution technique for problems in structural dynamics, based on a Modified Trapez...
International audienceIn the first talk, numerical time integration methods will be presented for no...