The step size determines the accuracy of a discrete element simulation. The position and velocity updating calculation uses a pre-calculated table and hence the control of step size can not use the integration formulas for step size control. A step size control scheme for use with the table driven velocity and position calculation uses the difference between the calculation result from one big step and that from two small steps. This variable time step size method chooses the suitable time step size for each particle at each step automatically according to the conditions. Simulation using fixed time step method is compared with that of using variable time step method. The difference in computation time for the same accuracy using a variable...
The operation of biosensors is described by mathematical models with reaction-diffusion equations. D...
The possibility of numerical modelling of the dynamic behaviour of particulate assemblies offered by...
The RELAP5-3D time step method is used to perform thermo-hydraulic and neutronic simulations of nucl...
Step-by-step time integration methods are widely used for solving structural dynamics problems. One ...
The object of this study is the relationship between the technical characteristics of a computing sy...
Discrete element models can be widely applied in simulation of many types of physical systems includ...
Abstract Since the work by Miller, Amon, and Reinhardt, which correctly warned against the indiscrim...
The behavior of the classic algorithm for blind source sep-aration (BSS) is detailed for a fixed ste...
The Hybrid CT approach for simulating cyber-physical systems uses continuous time simulation and pr...
An automatic time step size determination for non-linear problems, solved by implicit schemes, is pr...
An approach for controlling the macro-step size in connection with explicit co-simulation methods is...
Abstract: This paper presents a conceptually simple approach on adjusting the time step size in a st...
The numerical errors in idealised discrete element method (DEM) simulations are investigated analyti...
The efficiency of numerical time-stepping methods for dynamical systems is greatly enhanced by autom...
The efficiency of numerical time–stepping methods for dynamical systems is greatly enhanced by autom...
The operation of biosensors is described by mathematical models with reaction-diffusion equations. D...
The possibility of numerical modelling of the dynamic behaviour of particulate assemblies offered by...
The RELAP5-3D time step method is used to perform thermo-hydraulic and neutronic simulations of nucl...
Step-by-step time integration methods are widely used for solving structural dynamics problems. One ...
The object of this study is the relationship between the technical characteristics of a computing sy...
Discrete element models can be widely applied in simulation of many types of physical systems includ...
Abstract Since the work by Miller, Amon, and Reinhardt, which correctly warned against the indiscrim...
The behavior of the classic algorithm for blind source sep-aration (BSS) is detailed for a fixed ste...
The Hybrid CT approach for simulating cyber-physical systems uses continuous time simulation and pr...
An automatic time step size determination for non-linear problems, solved by implicit schemes, is pr...
An approach for controlling the macro-step size in connection with explicit co-simulation methods is...
Abstract: This paper presents a conceptually simple approach on adjusting the time step size in a st...
The numerical errors in idealised discrete element method (DEM) simulations are investigated analyti...
The efficiency of numerical time-stepping methods for dynamical systems is greatly enhanced by autom...
The efficiency of numerical time–stepping methods for dynamical systems is greatly enhanced by autom...
The operation of biosensors is described by mathematical models with reaction-diffusion equations. D...
The possibility of numerical modelling of the dynamic behaviour of particulate assemblies offered by...
The RELAP5-3D time step method is used to perform thermo-hydraulic and neutronic simulations of nucl...