Identification of a Duffing oscillator under different types of excitation.
Gandino, E., Marchesiello, S. (2010)
Mathematical Problems in Engineering
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Displaying similar documents to “Single-sweep timing simulation”
Identification of a Duffing oscillator under different types of excitation.
Gradient Method as a Tool for Mathematical Modeling in Earthquake Engineering
Olivera Jovanović, Dimitar Jurukovski (1997)
The Yugoslav Journal of Operations Research
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An efficient approach for solving a class of nonlinear parabolic PDEs.
Kim, Dongjin, Proskurowski, Wlodek (2004)
International Journal of Mathematics and Mathematical Sciences
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Interconnect synthesis in high speed digital VLSI routing.
Sayed, Moustafa A., Maksoud, Ehab Y.Abdel (2009)
International Journal of Open Problems in Computer Science and Mathematics. IJOPCM
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Efficient numerical algorithms for balanced stochastic truncation
Peter Benner, Enrique Quintana-Ortí, Gregorio Quintana-Ortí (2001)
International Journal of Applied Mathematics and Computer Science
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We propose an efficient numerical algorithm for relative error model reduction based on balanced stochastic truncation. The method uses full-rank factors of the Gramians to be balanced versus each other and exploits the fact that for large-scale systems these Gramians are often of low numerical rank. We use the easy-to-parallelize sign function method as the major computational tool in determining these full-rank factors and demonstrate the numerical performance of the suggested implementation...
Application of a Java-based framework to parallel simulation of large-scale systems
Ewa Niewiadomska-Szynkiewicz, Maciej Żmuda, Maciej Żmuda (2003)
International Journal of Applied Mathematics and Computer Science
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Large-scale systems, such as computer and telecommunication networks, complex control systems and many others, operate in inherently parallel environments. It follows that there are many opportunities to admit parallelism into both the algorithm of control implementation and simulation of the system operation considered. The paper addresses issues associated with the application of parallel discrete event simulation (PDES). We discuss the PDES terminology and methodology. Particular...
Models combination in (max,+) algebra for the implementation of a simulation and analysis software
Sébastien Lahaye, Laurent Hardouin, Jean-Louis Boimond (2003)
Kybernetika
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This paper presents a modeling methodology in (max,+) algebra which has been developed in order to implement a modulary software for the simulation and the analysis of electronic cards production lines. More generally, this approach may be applied to hybrid flowshop type manufacturing systems.
Modeling and computation of heterogeneous implicit solvent and its applications for biomolecules
Duan Chen (2014)
Molecular Based Mathematical Biology
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Description of inhomogeneous dielectric properties of a solvent in the vicinity of ions has been attracting research interests in mathematical modeling for many years. From many experimental results, it has been concluded that the dielectric response of a solvent linearly depends on the ionic strength within a certain range. Based on this assumption, a new implicit solvent model is proposed in the form of total free energy functional and a quasi-linear Poisson-Boltzmann equation (QPBE)...
Adaptive modeling of reliability properties for control and supervision purposes
Kai-Uwe Dettmann, Dirk Söffker (2011)
International Journal of Applied Mathematics and Computer Science
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Modeling of reliability characteristics typically assumes that components and systems fail if a certain individual damage level is exceeded. Every (mechanical) system damage increases irreversibly due to employed loading and (mechanical) stress, respectively. The main issue of damage estimation is adequate determination of the actual state-of-damage. Several mathematical modeling approaches are known in the literature, focusing on the task of how loading effects damage progression (e.g.,...