Advanced Computer Graphics (in English)

• 26 hrs lectures
• 26 hrs projects

• 51 pts final exam (28 pts written part, 23 pts test part)
• 9 pts mid-term test (test part)
• 40 pts projects

The students will get acquainted with the advanced computer animation and computer graphics methods suitable for dynamic and large scale scenes. They will also learn how to practically implement selected algorithms through projects.
The students will practice teamwork on the projects, work with literature, and practical experience with C/C++ and other languages.

To get acquainted with the advanced computer animation and computer graphics methods suitable for dynamic and large scale scenes. To learn how to practically implement selected algorithms through projects.

• Computer Graphics Principles (IZG)
• Computer Graphics (PGR)

• Moeller, T., Haines, E., Real-time Rendering, AK Peters, 1999, ISBN 1569911012 (currently available in 3rd edition: Real-time Rendering, 2008)
• Moeller, T., Haines, E., Real-time Rendering, AK Peters, 1999, ISBN 1569911012 (currently available in 3rd edition:  Real-time Rendering, 2008 Tomas Akenine-Möller (Autor), Eric Haines https://www.amazon.de/Real-time-Rendering-Tomas-Akenine-M%C3%B6ller/dp/1568814240) (https://www.amazon.de/Real-time-Rendering-Tomas-Akenine-M%C3%B6ller/dp/1568814240)
• Marschner, S., Shirley, P.: Fundamentals of Computer Graphics, Fourth Edition, A. K. Peters, Ltd. Natick, MA, USA 2016 ISBN:1482229390 9781482229394
• Thalmann, N., M., Thalmann, D., Interactive Computer Animation, Prentice Hall, 1996, ISBN 0-13-518309-X
• Papers IEEE, ACM, Wikipedia

• Články IEEE, ACM, Wikipedie
• Thalmann, N., M., Thalmann, D., Interactive Computer Animation, Prentice Hall, 1996, ISBN 0-13-518309-X
• Moeller, T., Haines, E., Real-time Rendering, AK Peters, 1999, ISBN 1569911012 

1. Introduction, limits of computer graphics, physics reminders/Úvod, omezení počítačové grafiky, připomínka fyziky (Zemčík 25.9. slajdy/slides)
2. Advanced work with shaders/Pokročilá práce se shadery, Frame Buffer, Teselation, Compute Shader (Milet 2.10. slajdy/slides FitGL)
3. Optimization of ray tracing/optimalizace sledování paprsku (Zemčík 9.10. ray tracing program pray slajdy/slides)
4. Visibility, shadow maps, shdow volumes, real-time global illumination/Výpočty viditelnosti, stínové mapy, stínová tělesa, real-time globální osvětlení I (Milet, 16.10. slajdy/slides)
5. Visibility, shadow maps, shdow volumes, real-time global illumination/Výpočty viditelnosti, stínové mapy, stínová tělesa, real-time globální osvětlení II (Milet, 23.10. slajdy/slides)
6. Advanced Gl/Pokročilé metody GI (T. Lysek 30.10.slajdy/slides)
7. CUDA and OpelCL/CUDA a OpenCL (Kula, 6.11. slajdy/slides)
8. Physically based shading, Anti Aliasing (Starka 13.11. slajdy/slidesslajdy/slides)
9. Large scenes/Rozsáhlé scény, level of detail (Starka lod velké scény/large scenes, 20.11.)
10. Test, Rendering of scenes with high dynamic range - HDR/Zobrazování scén s vysokým dynamickým rozsahem - HDR, (Čadík 27.11. slajdy/slides)
11. Efektivní řazení a hledání v renderovacích algoritmech/Efficient Sorting and Searching in Rendering Algorithms (guest V. Havran slajdy/slides, updated slides ČVUT v Praze, 4.12.)
12. Animation of skeletal structures/Animace kloubních soustav, "motion capture" (guest M. Fědor 11.12.)
13. Virtual and augmented reality, conclusions/Virtuání a rozšířená realita, závěr (Beran, Zemčík, 18.12. slajdy/slides)

POZOR!!! Témata a data přednášek jsou orientační a budou v průběhu semestru aktualizována.

NOTE: The topics and dates are just FYI, not guaranteed,  and will be continuously updated.

1. Homeworks (5 runs) at the beginning of semester
2. Individually assigned projects.

Homeworks, mid-term test, individual project.