052200 VU Foundations of Computer Graphics (2019W)
Prüfungsimmanente Lehrveranstaltung
Labels
An/Abmeldung
Hinweis: Ihr Anmeldezeitpunkt innerhalb der Frist hat keine Auswirkungen auf die Platzvergabe (kein "first come, first served").
- Anmeldung von Sa 07.09.2019 09:00 bis Mo 23.09.2019 09:00
- Abmeldung bis Mo 14.10.2019 23:59
Details
max. 50 Teilnehmer*innen
Sprache: Englisch
Lehrende
Termine (iCal) - nächster Termin ist mit N markiert
Dienstag
01.10.
16:45 - 18:15
Hörsaal 2, Währinger Straße 29 2.OG
Donnerstag
03.10.
16:45 - 18:15
Hörsaal 3, Währinger Straße 29 3.OG
Dienstag
08.10.
16:45 - 18:15
Hörsaal 2, Währinger Straße 29 2.OG
Donnerstag
10.10.
16:45 - 18:15
Hörsaal 3, Währinger Straße 29 3.OG
Dienstag
15.10.
16:45 - 18:15
Hörsaal 2, Währinger Straße 29 2.OG
Donnerstag
17.10.
16:45 - 18:15
Hörsaal 3, Währinger Straße 29 3.OG
Dienstag
22.10.
16:45 - 18:15
Hörsaal 2, Währinger Straße 29 2.OG
Donnerstag
24.10.
16:45 - 18:15
Hörsaal 3, Währinger Straße 29 3.OG
Dienstag
29.10.
16:45 - 18:15
Hörsaal 2, Währinger Straße 29 2.OG
Donnerstag
31.10.
16:45 - 18:15
Hörsaal 3, Währinger Straße 29 3.OG
Dienstag
05.11.
16:45 - 18:15
Hörsaal 2, Währinger Straße 29 2.OG
Donnerstag
07.11.
16:45 - 18:15
Hörsaal 3, Währinger Straße 29 3.OG
Dienstag
12.11.
16:45 - 18:15
Hörsaal 2, Währinger Straße 29 2.OG
Donnerstag
14.11.
16:45 - 18:15
Hörsaal 3, Währinger Straße 29 3.OG
Dienstag
19.11.
16:45 - 18:15
Hörsaal 2, Währinger Straße 29 2.OG
Donnerstag
21.11.
16:45 - 18:15
Hörsaal 3, Währinger Straße 29 3.OG
Dienstag
26.11.
16:45 - 18:15
Hörsaal 2, Währinger Straße 29 2.OG
Donnerstag
28.11.
16:45 - 18:15
Hörsaal 3, Währinger Straße 29 3.OG
Dienstag
03.12.
16:45 - 18:15
Hörsaal 2, Währinger Straße 29 2.OG
Donnerstag
05.12.
16:45 - 18:15
Hörsaal 3, Währinger Straße 29 3.OG
Dienstag
10.12.
16:45 - 18:15
Hörsaal 2, Währinger Straße 29 2.OG
Donnerstag
12.12.
16:45 - 18:15
Hörsaal 3, Währinger Straße 29 3.OG
Dienstag
17.12.
16:45 - 18:15
Hörsaal 2, Währinger Straße 29 2.OG
Dienstag
07.01.
16:45 - 18:15
Hörsaal 2, Währinger Straße 29 2.OG
Donnerstag
09.01.
16:45 - 18:15
Hörsaal 3, Währinger Straße 29 3.OG
Dienstag
14.01.
16:45 - 18:15
Hörsaal 2, Währinger Straße 29 2.OG
Donnerstag
16.01.
16:45 - 18:15
Hörsaal 3, Währinger Straße 29 3.OG
Dienstag
21.01.
16:45 - 18:15
Hörsaal 2, Währinger Straße 29 2.OG
Donnerstag
23.01.
16:45 - 18:15
Hörsaal 3, Währinger Straße 29 3.OG
Dienstag
28.01.
16:45 - 18:15
Hörsaal 2, Währinger Straße 29 2.OG
Donnerstag
30.01.
16:45 - 18:15
Hörsaal 3, Währinger Straße 29 3.OG
Information
Ziele, Inhalte und Methode der Lehrveranstaltung
Art der Leistungskontrolle und erlaubte Hilfsmittel
Assignments: 50%
3xCourse Feedback: 5%
Midterm: 20%
Final: 25%
3xCourse Feedback: 5%
Midterm: 20%
Final: 25%
Mindestanforderungen und Beurteilungsmaßstab
Teilnahme-voraussetzung: StEOP, PR2, MG2, THI, MOD, ADSA minimum grade of 25% must be earned on both Lab 2 and Lab 3.
A total minimum grade of 40% must be earned on both Lab 1 (1a+1b combined) and Lab 4 (4a+4b combined).
The grading scale for the course will be:
1: at least 87.5%
2: at least 75.0%
3: at least 60.0%
4: at least 40.0%
A total minimum grade of 40% must be earned on both Lab 1 (1a+1b combined) and Lab 4 (4a+4b combined).
The grading scale for the course will be:
1: at least 87.5%
2: at least 75.0%
3: at least 60.0%
4: at least 40.0%
Prüfungsstoff
1. Discuss the light transport problem and its relation to numerical integration i.e., light is emitted, scatters around the scene, and is measured by the eye.
2. Describe the basic graphics pipeline and how forward and backward rendering factor in this.
3. Create a program to display 3D models of simple graphics images.
4. Derive linear perspective from similar triangles by converting points (x, y, z) to points (x/z, y/z, 1).
5. Obtain 2-dimensional and 3-dimensional points by applying affine transformations.
6. Apply 3-dimensional coordinate system and the changes required to extend 2D transformation operations to handle transformations in 3D.
7. Contrast forward and backward rendering.
8. Explain the concept and applications of texture mapping, sampling, and anti-aliasing.
9. Explain the ray tracing/rasterization duality for the visibility problem.
10. Implement simple procedures that perform transformation and clipping operations on simple 2-dimensional images.
11. Implement a simple real-time renderer using a rasterization API (e.g., OpenGL) using vertex buffers and shaders.
12. Compare and contrast the different rendering techniques.
2. Describe the basic graphics pipeline and how forward and backward rendering factor in this.
3. Create a program to display 3D models of simple graphics images.
4. Derive linear perspective from similar triangles by converting points (x, y, z) to points (x/z, y/z, 1).
5. Obtain 2-dimensional and 3-dimensional points by applying affine transformations.
6. Apply 3-dimensional coordinate system and the changes required to extend 2D transformation operations to handle transformations in 3D.
7. Contrast forward and backward rendering.
8. Explain the concept and applications of texture mapping, sampling, and anti-aliasing.
9. Explain the ray tracing/rasterization duality for the visibility problem.
10. Implement simple procedures that perform transformation and clipping operations on simple 2-dimensional images.
11. Implement a simple real-time renderer using a rasterization API (e.g., OpenGL) using vertex buffers and shaders.
12. Compare and contrast the different rendering techniques.
Literatur
Edward Angel, Dave Shreiner Interactive Computer Graphics with WebGL, 7th edition, Addison-Wesley, 2015.
Zuordnung im Vorlesungsverzeichnis
Module: VMI VIN GFX
Letzte Änderung: Mo 07.09.2020 15:20
* basic raster graphics algorithms for drawing 2D primitives, antialiasing
* 2D and 3D geometrical transformations, 3D projections/viewing
* polygonal and hierarchical models
* hidden-surface removal
* basic rendering techniques (colour, shading, raytracing)
* interaction techniques
* textures