AbstractStochastic analysis of flexible multibody system for uncertain parameters typically requires a large number of simulation runs for example for Monte-Carlo simulation. However, as the computational load of a regular flexible multibody model is typically rather high, this is often infeasible. A solution to this high computational load is model reduction, but regular model reduction approaches for flexible multibody simulation do not maintain the parameter dependency. This leads to a new model reduction for each parameter which also leads to high computational costs. The current work presents a novel system level model reduction technique for parameterized flexible multibody simulation. The proposed approach is a parameterized version ...
Interpolation of reduced order models (ROM) is an important topic in many areas of model reduction. ...
This paper presents a method to build closed-form dynamic equations for flexible multibody systems w...
The equations of motion for a mechanical system generally take the form of a set of differentialalge...
© 2015 The Authors. Published by Elsevier B.V. Stochastic analysis of flexible multibody system for ...
In recent years, flexible multibody simulation has become an essential tool in the computer aided de...
In flexible multibody dynamics, body-level model reduction is typically used to decrease the computa...
Most of the current formalisms for flexible multibody simulation lead to very computationally expens...
Current modelling techniques only allow realtime simulation of strongly simplified models of flexibl...
Fast simulation (e.g. real-time) of flexible multibody systems is typically restricted by the presen...
This paper introduces a novel model reduction technique, namely Sub-System Global Modal Parameteriza...
This paper presents a novel system‐level model order reduction scheme for flexible multibody simulat...
In recent years, the design of modern mechanical and mechatronic system is becoming an increasingly ...
In recent years, the design of modern mechanical and mechatronic system is becoming an increasingly ...
Flexible multibody systems are governed by sets of non-linear differential-algebraic equations (DAE)...
Many applications require fast and even real-time multibody simulations. Until recently, strongly si...
Interpolation of reduced order models (ROM) is an important topic in many areas of model reduction. ...
This paper presents a method to build closed-form dynamic equations for flexible multibody systems w...
The equations of motion for a mechanical system generally take the form of a set of differentialalge...
© 2015 The Authors. Published by Elsevier B.V. Stochastic analysis of flexible multibody system for ...
In recent years, flexible multibody simulation has become an essential tool in the computer aided de...
In flexible multibody dynamics, body-level model reduction is typically used to decrease the computa...
Most of the current formalisms for flexible multibody simulation lead to very computationally expens...
Current modelling techniques only allow realtime simulation of strongly simplified models of flexibl...
Fast simulation (e.g. real-time) of flexible multibody systems is typically restricted by the presen...
This paper introduces a novel model reduction technique, namely Sub-System Global Modal Parameteriza...
This paper presents a novel system‐level model order reduction scheme for flexible multibody simulat...
In recent years, the design of modern mechanical and mechatronic system is becoming an increasingly ...
In recent years, the design of modern mechanical and mechatronic system is becoming an increasingly ...
Flexible multibody systems are governed by sets of non-linear differential-algebraic equations (DAE)...
Many applications require fast and even real-time multibody simulations. Until recently, strongly si...
Interpolation of reduced order models (ROM) is an important topic in many areas of model reduction. ...
This paper presents a method to build closed-form dynamic equations for flexible multibody systems w...
The equations of motion for a mechanical system generally take the form of a set of differentialalge...