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The topic of this lecture is predictive image synthesis, and the technologies that are needed to accomplish it. The emphasis
of the lecture is on those aspects of computer graphics that are unique to this particular application domain.
Last update: Macharová Dana, JUDr. (24.09.2008)
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Evaluation of student knowledge is via a single exam after the course ends. During this exam, several of the questions listed in the document with sample questions for the course will be asked. The grade is the average of the performance on the individual questions. Successful completion of the practicals depends on handing in several assignments during the course of the semester in a timely fashion. Last update: Wilkie Alexander, prof. Dr. techn. (18.06.2019)
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Julie Dorsey, Holly Rushmeier, Francois Sillion: Digital Modeling of Material Appearance, Morgan Kaufmann, 2007, ISBN 0122211812, 9780122211812
Dutre P., Bala K., Bekaert P: Advanced Global Illumination, A K Peters, 2006
The slides from the Rendering lecture held at Vienna University of Technology were taken from this webpage:
https://www.cg.tuwien.ac.at/courses/Rendering/VU.SS2018.html Last update: Wilkie Alexander, prof. Dr. techn. (13.03.2018)
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1. Definition of predictive rendering
2. Physics background the foundations of light transport 3. Theoretical foundations of rendering technologies the rendering equation, emphasis on the unbiased rendering algorithms typical for predictive rendering 4. Spectral rendering how one can represent the spectral behaviour of light and reflectance 5. Physically based reflectance models 6. Measurement of surface properties 7. Measurement of incident illumination 8. Verification of rendering techniques 9. Display considerations for Predictive Rendering results Last update: Macharová Dana, JUDr. (24.09.2008)
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