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Modeling and Simulation
Modellierung und Simulation
Last Updated: 2026-02-05 14:59:54
Abstract
Problem oriented course in scientific computing with emphasis onoptimization and modelling:linear and nonlinear least squaressensitivity analysis,constraint minimization (Lagrange multipliers)conjugate gradient methodSVDLinear programmingsupport vector classificationvariational calculuslinear filter theory (Wiener filter)nonlinear diffusiondynamic programmingparsimony
Objective
The course summarizes important concepts of scientific computing which are related to optimization, variational calculus and demonstrates these methods on problems from bioinformatics, and computer vision.
Content
Problem oriented course in scientific computing: Each problem class is related to a set of methods from optimization, minimization and modeling. P1: localization of an aircraft M1: nonlinear least squares, error and sensitivity analysis, constraint minimization (Lagrange multipliers), conjugate gradient method P2: secondary structure prediction of proteins M2: Least squares, singular value decomposition, nearest neighbor, Linear programming, support vector classification and convex optimization P3: image restauration modelling, motion computation M3: variational calculus, linear filter theory, Fourier transformation, parabolic PDEs, nonlinear diffusion, P4: phylogenetic tree inference M4: dynamic programming, parsimony, Branch and Bound
General Information
- Language
- German
- Frequency
- Yearly recurring
Examination
- Type
- session examination
- Mode
- written 180 minutes
- Aids
- 8 Seiten (4 A4-Blätter) handschriftliche Zusammenfassung und Taschenrechner.
Course Components
| Type | Title | Time & Place | Hours |
|---|---|---|---|
| lecture | Modellierung und Simulation |
|
3 h weekly |
| exercise | Modellierung und Simulation |
|
2 h weekly |