Course Contents
- parametric curve models
- parametric surface models
- topology and volumetric CAD models
- CAD operations on surfaces
- tesselation
- approximation of curves and surfaces
- finite element method and computational fluid dynamicsvarious applications from the area of CAD
[b]Learning Outcomes:[/b]
After successfully attending the course, students understand the foundations of computer-aided methods for geometric modelling and simulation. They understand multiple parametric representations for curves and surfaces and are able to analyze and compare them. They know classical data structures and algorithms from computer aided design (CAD). They can use the presented techniques to model and visualize 3D geometry.
Literature
- Copies of the lecture notes
- Lee: Principles of CAD / CAM / CAE Systems, Addison-Wesley.
- Piegl, Tiller: The NURBS Book, Springer Verlag.
- Farin: Kurven und Flächen im Computer Aided Geometric Design, vieweg
- Shah, Mäntylä: Parametric and Feature-based CAD/CAM, Wiley & Sons
Preconditions
Grundwissen in Informatik
Further Grading Information
IV, 6CP/4SWS, usually in the winter semester
Online Offerings
moodle
- Lehrende: Sebastian Besler
- Lehrende: Marcus Stegemann
- Lehrende: André Stork