This paper proposes a unified formalism for the simulation of mechatronic systems with complex flexible mechanisms. The equations of motion are formulated using a nonlinear Finite Element approach for the mechanism, and the block diagram language for the control system. The set of strongly coupled equations of motion is constructed numerically, and integrated in the time domain using the generalized-alpha method. Convergence and stability properties are thus guaranteed for the simulation algorithm. Two illustrative examples are treated in the fields of vehicle dynamics and robotics respectively
This paper proposes a comprehensive methodology to update dynamic models of flexible-link mechanisms...
Until recently, vibration effects have generally been neglected in the design of high-speed machines...
Today, state-of-the-art simulation packages in flexible multibody dynamics allow the high-fidelity a...
This chapter concerns the dynamic analysis of flexible multibody systems. After a brief review of th...
This paper presents a nonlinear finite element formalism for modelling the dynamics of flexible mani...
The chapter concerns the dynamic analysis of flexible multibody systems. After a brief review of the...
This paper concerns the modeling and the integrated numerical simulation of flexible mechanisms subj...
A finite element dynamics model for flexible multibody systems is developed. The equations of motion...
In this talk, I will discuss some extensions and refinements of classical finite element tools for t...
A finite element based method is presented for evaluation of linearized dynamic equations of flexibl...
In this article, numerical methods are exploited for the design of mechatronic systems. A method is ...
This paper presents some extensions of flexible multibody formalisms for mechatronic applications. T...
This talk concerns the numerical simulation of mechatronic systems, such as robots, machine-tools or...
The present work provides the necessary tools for the dynamic modelling of flexible mechanisms using...
Generalized system modelling using finite element technique is examined in order that the dynamic be...
This paper proposes a comprehensive methodology to update dynamic models of flexible-link mechanisms...
Until recently, vibration effects have generally been neglected in the design of high-speed machines...
Today, state-of-the-art simulation packages in flexible multibody dynamics allow the high-fidelity a...
This chapter concerns the dynamic analysis of flexible multibody systems. After a brief review of th...
This paper presents a nonlinear finite element formalism for modelling the dynamics of flexible mani...
The chapter concerns the dynamic analysis of flexible multibody systems. After a brief review of the...
This paper concerns the modeling and the integrated numerical simulation of flexible mechanisms subj...
A finite element dynamics model for flexible multibody systems is developed. The equations of motion...
In this talk, I will discuss some extensions and refinements of classical finite element tools for t...
A finite element based method is presented for evaluation of linearized dynamic equations of flexibl...
In this article, numerical methods are exploited for the design of mechatronic systems. A method is ...
This paper presents some extensions of flexible multibody formalisms for mechatronic applications. T...
This talk concerns the numerical simulation of mechatronic systems, such as robots, machine-tools or...
The present work provides the necessary tools for the dynamic modelling of flexible mechanisms using...
Generalized system modelling using finite element technique is examined in order that the dynamic be...
This paper proposes a comprehensive methodology to update dynamic models of flexible-link mechanisms...
Until recently, vibration effects have generally been neglected in the design of high-speed machines...
Today, state-of-the-art simulation packages in flexible multibody dynamics allow the high-fidelity a...