Zur Effizienten Kopplung von Simulationsprogrammen /
Saved in:
| Author / Creator: | Busch, Martin. |
|---|---|
| Imprint: | Kassel : Kassel University Press, 2012. |
| Description: | 1 online resource (xiii, 154 pages) : illustrations (some color) |
| Language: | German |
| Subject: | |
| Format: | E-Resource Dissertations Book |
| URL for this record: | http://pi.lib.uchicago.edu/1001/cat/bib/13345224 |
Table of Contents:
- ""Front cover ""; ""Titelseite ""; ""Impressum ""; ""Vorwort""; ""Zusammenfassung""; ""Inhaltsverzeichnis""; ""1 Erweiterte Zusammenfassung der Dissertation""; ""1.1 Einf�hrung""; ""1.1.1 Gekoppelte Systeme""; ""1.1.2 Modulare Modellierung: Methoden zur Zerlegung des Gesamtsystems""; ""1.1.3 Lösung des gekoppelten Problems""; ""1.1.4 Approximation und Integrationsreihenfolge bei schwacher Kopplung""; ""1.1.5 Nullstabilit�t und numerische Stabilit�t schwacher Kopplungen""; ""1.2 Zielsetzung und Organisation der Dissertationsschrift""
- ""1.2.1 Untersuchung und Steuerung von Co-Simulationsverfahren""""1.2.2 Effiziente MKS/FEM-Funktionskopplung zur Simulation von hydrodynamischen Gleitlagern""; ""1.2.3 Verwendete Publikationen / Eigenleistung""; ""1.3 Diskussion und Bewertung""; ""Literaturverzeichnis""; ""2 Solver Coupling: Stability and Error Analysis for Explicit and Implicit Co-Simulation Methods""; ""2.1 Introduction""; ""2.2 Definition of the coupled problem""; ""2.2.1 Zero-stability and numerical stability of weak coupling approaches""; ""2.2.2 Explicit and implicit weak coupling approaches""
- ""2.3 Stability and error analysis of co-simulation methods based on a linear 2-DOF test model""""2.3.1 Recapitulation: Test model and numerical stability for time-integration methods""; ""2.3.2 Test model for co-simulation methods: The linear 2-DOF oscillator""; ""2.3.3 Modular modeling of the 2-DOF test model: Force/displacement and displacement/displacement coupling""; ""2.3.4 Remark on the zero-stability of co-simulation methods applied to the test model""; ""2.3.5 The weakly coupled test model and the numerical stability of co-simulation methods""
- ""2.4 Numerical results: 3D-stability and error plots""""2.4.1 Parameter study 1""; ""2.4.2 Parameter study 2""; ""2.4.3 Parameter study 3""; ""2.4.4 Parameter study 4""; ""2.5 Conclusions""; ""2.A Derivation of the companion matrix and detailed error analysis for constant approximation polynomials""; ""2.B 3D-stability plots and error diagrams""; ""2.B.1 Parameter study 1: Influence of different co-simulation approaches on the numerical stability and the local error""; ""2.B.2 Parameter study 2: Influence of the subsystem parameters on the numerical stability""
- ""2.B.3 Parameter study 3: Influence of the damping parameters on the numerical stability""""2.B.4 Parameter study 4: Influence of the stiffness parameters on the numerical stability""; ""References""; ""3 Hermite versus Lagrange Approximation Polynomials: Comparison of the Numerical Stability and the Numerical Error for Different Co-Simulation Methods""; ""3.1 Introduction""; ""3.2 Test model for the stability analysis of co-simulation methods""; ""3.2.1 Decomposition of the 2-DOF test model by applied-force coupling techniques""