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This article is cited in 3 scientific papers (total in 3 papers)
Implementation of computer model for the unilateral multibody systems dynamics
I. I. Kosenko State Academy of Consumer Services
Abstract:
Computer modeling and simulation of dynamics for multibody systems
consisting of rigid bodies with unilateral constraints (MBSUC) is
not an easy problem. When developing the models, one encounters
several obstacles difficult to overcome. In the current paper an
approach to modeling the MBSUC dynamics based on Modelica language
is described.
First of all so called acausal modeling approach is applied here
because MBSUC is represented in this case via the hybrid automata
having a large number or even very large number of states. It
turns out one can avoid the model structural complexity growth on
this way, at least on the Modelica level of the description.
The problem of the regularization for transitions between the
states of the unilateral constraint is under resolution. The
transitions being simulated are the following ones: between
relative flight and contact, and for the case of contact between
sliding and rolling. The model of dry friction is taken into
account. Impacts distributed throughout the MBSUC are also
implemented.
The comprehensive verification of the regularized model in compare
with the model of the exact hybrid automata is carried out. An
example of the heavy ellipsoid on the rough plane is used for this
purpose. The ellipsoid supposed to have a possibility of jumps,
slipping, and rolling. Some known qualitative examples of the
rigid body dynamics on the rough plane are also under
consideration.
Received: 11.05.2005
Citation:
I. I. Kosenko, “Implementation of computer model for the unilateral multibody systems dynamics”, Matem. Mod., 18:12 (2006), 95–106
Linking options:
https://www.mathnet.ru/eng/mm135 https://www.mathnet.ru/eng/mm/v18/i12/p95
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