Czech

4

Not applicable.

Subject specific knowledge and abilities:
" Student acquaints with the basic principles of plane (2D) and space (3D) computer graphics
" He/she learns the fundamentals of using main graphical programming interfaces, Win32 API and OpenGL
" He/she acquaints with the 2D algorithms for line objects rasterisation, trimming and closed regions filling
" He/she acquaints with the 3D algorithms for objects 3D objects transformations, visibility solution, lighting, shading and texturing
" He/she learns the fundamentals of 3D scenes photorealistic visualization
" He/she learns the fundamental of 3D objects geometry representations
" He/she acquaints with signal image processing and antialiasing
" He/she learns practical implementation of vector and raster based graphical applications

Basic principles of C/C++ programming

Not applicable.

The course contains lectures that explain basic principles, problems and methodology of the discipline, and exercises that promote the practical knowledge of the subject presented in the lectures.

Evaluation of projects (maximum 30 points), a mid-term test (maximum 20 points) and term test (maximum 50 points). Exam is realized as term test. Maximum is 100 points. 50 point is minimum for the subject graduating.

Lectures outline:
1. Introduction to Computer graphics (CG), basic priciples
2. Colors and color models, color space reduction, black&white images
3. Rasterisation of basic vector entities, region filling
4. 2D clipping
5. 2D and 3D transformations
6. Curves in CG
7. 3D objects representation
8. 3D objects visibility
9. Lighting models and smooth sufrace shading, raytracing and radiosity
10. Texturing
11. Antialiasing
12. Introduction to graphics API
13. Introduction to OpenGL I and II

Laboratories outline:
1. Laboratories overview (GLUT, tools, compilation)
2. Graphical image formats, color space reduction
3. Basic object rasterisation
4. 2D spline curves display
5. Filling of 2D closed areas
6. 3D transformation
7. Basic of OpenGL

Not applicable.

To provide overview of basics principles of plane(2D) space (3D) computer graphics. To acquaint with the vector based objects displaying algorithms and methods in 2D and 3D scenes, namely: 2D objects rasterisation and trimming, 2D closed areas filling, objects transformations, 3D objects visibility solution, lighting, shading and texturing. To acquaint with the basic principles of the main graphical interfaces, namely Win32 API and OpenGL. To overrule the implementation and using of the interfaces in real graphical applications.

A mid-term exam evaluation and evaluation of projects.

Not applicable.

Not applicable.

[1] Foley, J., D., et al., Computer Graphics: Principles and Practise, 2 edition, Addison-Wesley, 1996
[2] Watt, A., 3D Computer Graphics, 3 edition, Addison-Wesley, 2000

Not applicable.

13 hours, compulsory