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On the Cosimulation of Multibody Systems and Hydraulic Dynamics
(Springer, 2020-02)
[Abstract] The simulation of mechanical devices using multibody system dynamics (MBS) algorithms frequently requires the consideration of their interaction with components of a different physical nature, such as electronics, ...
An Automated Methodology to Select Functional Co-Simulation Configurations
(Springer, 2020-01)
[Abstract] The development of machinery often requires system-level analysis, in which non-mechanical subsystems, such as hydraulics, need to be considered. Co-simulation allows analysts to divide a problem into subsystems ...
Efficient coupling of multibody software with numerical computing environments and block diagram simulators
(Springer, 2010-03-27)
[Abstract]
Simulation of complex mechatronic systems like an automobile, involving mechanical components as well as actuators and active electronic control devices, can be accomplished by combining tools that deal with ...
Multibody system dynamics interface modelling for stable multirate co-simulation of multiphysics systems
(Elsevier, 2018-09)
[Abstract]
Many industrial applications benefit from predictive computer simulation to reduce costs and time, and shorten product development cycle. Computational multibody system dynamics formalisms and software tools ...