The separate numerical simulation of interacting subsystems, i.e. the co-simulation of subsystems, is widespread in advanced system simulation. Classically, mechanical subsystems are coupled by artificial stiffnesses, which often are unknown. In this paper, we present a coupling approach that uses no artificial stiffness, but a kinematic coupling constraint for the co-simulation of different subsystems. The algebraic constraint leads to corresponding constraint forces that only act in one direction of the coupling to avoid drift-off problems, while displacements are given in the opposite direction. Moreover, a strategy for an efficient computation of approximated constraint forces is provided. For the stability of the approach, we consider ...
The second order kinematic constraint (acceleration constraint) between two rigid bodies that are r...
This dissertation has two parts. The first part deals with co-simulation schemes for mechanical syst...
In rigid body simulation, one must distinguish between contacts (so-called unilateral constraints) a...
A coupling method is presented that aims at computing the dynamics of constrained mechanical systems...
We consider a differential-algebraic co-simulation approach to couple flexible structures to a rigid...
To couple two or more subsystem solvers in time domain, co-simulation methods are used in many field...
Die Simulation gekoppelter Systeme ist heutzutage allgegenwärtig. Dabei gibt es prinzipiell zwei Vor...
We present techniques for constructing an interactive rigid body simulation system, and describe ou...
An explicit cosimulation scheme is developed to study the coupling of smooth and nonsmooth systems u...
Dynamic simulation of multibody systems plays an important role in a wide range of fields, from robo...
We present a benchmark to experimentally validate the method we have developed to simulate mechanica...
We present a benchmark to experimentally validate the method we have developed to simulate mechanica...
Automated algorithms for the dynamic analysis and simulation of constrained multibody systems assume...
To simulate coupled problems, composed of smooth and non-smooth particle subsystems, a tight, i.e. i...
In this paper we present an interactive method for simulating deformable objects using skeletal cons...
The second order kinematic constraint (acceleration constraint) between two rigid bodies that are r...
This dissertation has two parts. The first part deals with co-simulation schemes for mechanical syst...
In rigid body simulation, one must distinguish between contacts (so-called unilateral constraints) a...
A coupling method is presented that aims at computing the dynamics of constrained mechanical systems...
We consider a differential-algebraic co-simulation approach to couple flexible structures to a rigid...
To couple two or more subsystem solvers in time domain, co-simulation methods are used in many field...
Die Simulation gekoppelter Systeme ist heutzutage allgegenwärtig. Dabei gibt es prinzipiell zwei Vor...
We present techniques for constructing an interactive rigid body simulation system, and describe ou...
An explicit cosimulation scheme is developed to study the coupling of smooth and nonsmooth systems u...
Dynamic simulation of multibody systems plays an important role in a wide range of fields, from robo...
We present a benchmark to experimentally validate the method we have developed to simulate mechanica...
We present a benchmark to experimentally validate the method we have developed to simulate mechanica...
Automated algorithms for the dynamic analysis and simulation of constrained multibody systems assume...
To simulate coupled problems, composed of smooth and non-smooth particle subsystems, a tight, i.e. i...
In this paper we present an interactive method for simulating deformable objects using skeletal cons...
The second order kinematic constraint (acceleration constraint) between two rigid bodies that are r...
This dissertation has two parts. The first part deals with co-simulation schemes for mechanical syst...
In rigid body simulation, one must distinguish between contacts (so-called unilateral constraints) a...