François E. Cellier scite author profile

In this paper, new integration methods for stiff ordinary differential equations (ODEs) are developed. Following the idea of quantization-based integration (QBI), i.e., replacing the time discretization by state quantization, the proposed algorithms generalize the idea of linearly implicit algorithms. Also, the implementation of the new algorithms in a DEVS simulation tool is discussed. The efficiency of these new methods is verified by comparing their performance in the simulation of two benchmark problems with that of other numerical stiff ODE solvers. In particular, the advantages of these new algorithms for the simulation of electronic circuits are demonstrated.

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Modeling of multibody systems with the object-oriented modeling language Dymola

Otter¹,

Elmqvist

Cellier

1996

Nonlinear Dyn

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Abstract. The object-oriented modeling language Dymola allows the physical modeling of large interconnected systems based on model components from different engineering domains. It generates symbolic code for different target simulators. In this paper, a Dymola class library for the efficient generation of the equations of motion for multibody systems is presented. The library is based on a O(n) algorithm which is reformulated in an objectoriented way. This feature can also be interpreted as a bond graph oriented modeling of multibody systems. Furthermore a new algorithm for a certain class of variable structure multibody systems, such as systems with Coulomb friction, is presented, which allows the generation of efficient symbolic code.

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Pt Nanoparticles Dispersed on SnO2 Thin Films: A Microstructural Study

Labeau

Gautheron

Cellier

et al. 1993

Journal of Solid State Chemistry

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