An ideal gas-liquid discontinuous dynamical system at sliding motion is studied. The discontinuity sticks while described by the gas model, and hence, integrated over a fixed time step. A discontinuity algorithm detects the exact time duration of applicability of liquid model. The ratio of time of applicability of liquid model to that of gas model is a smooth graph and it is in agreement with the analytical results. In addition, this is shown to be an efficient way to numerically solve the system while in sliding motion
The description of the symplectic multi-step algorithm for integration of the equations of motion wi...
We describe model semantics and develop a simulation algorithm for characterizing a class of dynamic...
AbstractIn this paper, we define B-smooth discontinuous dynamical systems which can be used as model...
The concept of correctness of the numerical solution of a gas-liquid system with persistent disconti...
When a liquid and a gas are sent into a closed system and withdrawn through a single outlet, discont...
A closed container with gas and liquid inflows and one outlet for outflow, described by a nonlinear ...
The paper proposes a method aimed to performing numerical integration of the equations of motion for...
We have proposed an approach to derive a continuous system of differential algebraic equations (DAE)...
It is the purpose of this talk to present recent advances in the numerical solution of piecewise smo...
This article describes how to use smooth solvers for simulation of a class of piecewise smooth syste...
This work presents an effective procedure devised to implement the time discontinuous Galerkin metho...
We describe a model semantics and a simulation algorithm for characterizing a class of dynamic physi...
In this report, we have collected notes of work done during the Academic Year 2006-07, while the sec...
One of the most difficult computer simulation problems is the simulation of dynamic systems which in...
Abstract. In this paper, we define discontinuous dynamical systems which can be used as models of va...
The description of the symplectic multi-step algorithm for integration of the equations of motion wi...
We describe model semantics and develop a simulation algorithm for characterizing a class of dynamic...
AbstractIn this paper, we define B-smooth discontinuous dynamical systems which can be used as model...
The concept of correctness of the numerical solution of a gas-liquid system with persistent disconti...
When a liquid and a gas are sent into a closed system and withdrawn through a single outlet, discont...
A closed container with gas and liquid inflows and one outlet for outflow, described by a nonlinear ...
The paper proposes a method aimed to performing numerical integration of the equations of motion for...
We have proposed an approach to derive a continuous system of differential algebraic equations (DAE)...
It is the purpose of this talk to present recent advances in the numerical solution of piecewise smo...
This article describes how to use smooth solvers for simulation of a class of piecewise smooth syste...
This work presents an effective procedure devised to implement the time discontinuous Galerkin metho...
We describe a model semantics and a simulation algorithm for characterizing a class of dynamic physi...
In this report, we have collected notes of work done during the Academic Year 2006-07, while the sec...
One of the most difficult computer simulation problems is the simulation of dynamic systems which in...
Abstract. In this paper, we define discontinuous dynamical systems which can be used as models of va...
The description of the symplectic multi-step algorithm for integration of the equations of motion wi...
We describe model semantics and develop a simulation algorithm for characterizing a class of dynamic...
AbstractIn this paper, we define B-smooth discontinuous dynamical systems which can be used as model...