Significant advances in dynamic performance of mechatronic systems can be achieved only provided that mutual interactions of mechanics, electronics and control are thoroughly understood. In particular, in order to reproduce and analyze the effects of design choices on the overall performance, a multi-domain dynamic simulation should be integrated in the design process. This task can be made easier if physical modelling and simulation tools are adopted. This paper describes an experience of use of one of these tools: DYMOLA with Modelica language, in the simulation of a machining center.
Modelling and simulation of a machining center with Dymola
FERRETTI, GIANNI;MAGNANI, GIANANTONIO;ROCCO, PAOLO
2003-01-01
Abstract
Significant advances in dynamic performance of mechatronic systems can be achieved only provided that mutual interactions of mechanics, electronics and control are thoroughly understood. In particular, in order to reproduce and analyze the effects of design choices on the overall performance, a multi-domain dynamic simulation should be integrated in the design process. This task can be made easier if physical modelling and simulation tools are adopted. This paper describes an experience of use of one of these tools: DYMOLA with Modelica language, in the simulation of a machining center.File in questo prodotto:
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