| Date | Subject | links to slides | links to exercises | |
|---|---|---|---|---|
| Oct. 16, 07 | 1. Introduction | L1-Overview-no-videos.pdf | ||
| Oct. 23, 07 | 2. Coordinate Systems | L2-Coordsys.pdf | C(++)-Test - Solution Exercise 1 - Solution 1 | |
| Oct. 30, 07 | 3. Basics of Computer Vision | L3-BasicCV.pdf | Exercise 2 - Solution 2 | |
| Nov. 6, 07 | no class | Exercise 3 - Marker Solution 3 - sheet3.cpp | ||
| Nov. 15, 07 | (thursday!!) Visit to VR-lab (with 3DUI class) | Exercise 4 - Solution 4 - sheet4.cpp | ||
| Nov. 20, 07 | 4. Camera Calibration | L4-CamCalib.pdf | Exercise 5 - Solution 5 - sheet5.cpp | |
| Nov. 27, 07 | 5. Tracking Devices | L5-Trackers.pdf | Exercise 6 - Pose Estimation Code Solution 6 - sheet6.cpp | |
| Dec. 4, 07 | 6. Sensor Fusion + Registration | L6-Sensorfusion.pdf | Exercise 7 - Solution 7 - sheet7.cpp | |
| Dec. 11, 07 | 7. Displays (HMDs) | L7-Displays.pdf | Exercise 8 - Solution 8 - sheet8.cpp | |
| Dec. 18, 07 | 8. Display Calibration | L8-DisplayCalibration.pdf | Exercise 9 - Solution 9 | |
| Jan 8, 08 | 9. Rendering (Open GL), Occlusions | L9-OpenGL.pdf | Exercise 10 - Solution 10 | |
| Jan 15, 08 | 10. AR-based Interaction | L10-ARbasedUI.ppt | Exercise 11 - Ubitrack Linux - Ubitrack Windows UTQL Example 1 - UTQL Example 2 | |
| Jan 22, 08 | 11. Mixed Reality | L11-MR-Stars.pdf | ||
| Jan 29, 08 | 12. Intelligent Environments | L12-SysArchs-UbiTrack.pdf L13-UbiComp-IntEnvs.pdf | ||
| Feb 1, 08 | (friday, 13:00 !!) 13. Lab Visits (with 3DUI class) | |||
| TeachingForm | |
|---|---|
| Title: | Introduction to Augmented Reality - Einführung in die erweiterte Realität |
| Professor: | Prof. Gudrun Klinker, Ph.D. |
| Tutors: | Florian Echtler, Manuel Huber |
| Type: | Lecture |
| Information: | 2 SWS Vorlesung + 2 SWS Übung, 5 ECTS Credits (Module IN 2018) |
| Term: | 2007WiSe |
| Abstract: | Augmented Reality (AR) allows users to view computer information that is graphically embedded within the real three-dimensional world. Using a semi-transparent head-mounted display (HMD) attached to a wearable computer, a user can inspect and manipulat e objects while viewing information about these objects in the HMD. This information is typically displayed as virtual objects in the real world, thus augmenting the perception of the user. The wearable computer enables users to carry their work as they normally do, without imposing constraints on their mobility or their hand. AR applications span from medical minimally invasive surgery to manufacturing, from machine inspection and repair to games and tourist guides. This class presents the technical foundations of Augmented Reality - as used in current international research and applications. |