Exercise 6 is out. The deadline is on 02.02.2020. Updated at 11:05 AM 23.01.2020. Sample solution could be found here.
!!!!!!!!!!! No Lecture on 15.01.2020 !!!!!!!!!!
Due to illness, discussion for Exercise 4 is postponed for next Monday, 13.01.2020.
Exercise 4 is out. Next exercise session will be held on 06.01.2020 at 17:00 in room PC-32/411.
Solution for exercise 4 link
Exercise 3 is out. Next exercise session will be held on 02.12.2019 at 17:00 in room PC-32/411.
Solution for exercise 3, link.
Exercise 2 is out. Next exercise session will be held on 18.11.2019 at 17:00 in room PC-32/411.
Solution for exercise 2, link.
Exercise 1 is out. Next exercise session will be held on 04.11.2019 at 17:00 in room PC-32/411.
Room and Time
Lecture: 48/210, Wednesday, 08:15-09:45, starting 30.10.2019
Exercise: PC-32/411 Monday, 17:00 - 19:00
Prof. Dr. Didier Stricker
- Introduction: what is a camera?
- Camera model and camera calibration
- Fitting and parameter estimation
- Image point detection and point matching
- 2D-image transformations (mapping) and panorama stitching
- Two cameras: epipolar geometry and stereo reconstruction
- Multiple view reconstruction
- Structured light: laser, coded light
- Depth Cameras
- Structure from motion
- David A. Forsyth and Jean Ponce, Computer Vision: A Modern Approach
- Olivier Faugeras, Three-dimensional Computer Vision
- Richard Hartley and Andrew Zisserman, Multiple View Geometry in Computer Vision
The slides are added here shortly before or after the corresponding lecture.
- 28.10.2019: Introduction
- 06.11.2019: Camera models & calibration
- 13.11.2019: Homographies
- 20.11.2019: Parameter Estimation
- 27.11.2019: Epipolar Geometry
- 24.11.2019: Structure from Motion 1
- 11.12.2019: Structure from Motion 2
- 18.12.2019: Dense Reconstruction
- 08.01.2020: Structured Light 1
- 22.01.2020: Structured Light 2
- 29.01.2020: Depth Cameras
- 05.02.2020: Selected Topics: Plane based camera calibration and Semi Global Matching
Home assignments and supervised sessions (implementation in Python).
For theoretical questions, the solutions should be submitted in PDF format following the LaTex Template provided here.The header of your email should be [3DCV-2019 Ex-exercise_number].
- Exercise 1 Python Introduction and Latex template for exercise submission
Upload: 30.10.2019 Deadline: None, Discussion: 04.11.2019: exercise_1
- Exercise 2 Camera Calibration - Upload: 06.11.2019 Deadline:17.11.2019 Discussion: 18.11.2019 exercise_2
- Exercise 3 Homography - Upload: 20.11.2019 Deadline:01.12.2019 Discussion: 02.12.2019 exercise 3
- Exercise 4 Structure Reconstruction - Upload: 11.12.2019 Deadline: 22.12.2019/ Late Submission 05.01.2020 Discussion: 06.01.2020(changed to 13.01.2020) exercise 4
- Exercise 5 Dense 3D Reconstruction - Upload: 09.01.2020 Deadline: 19.01.2020 Discussion: 20.01.2020 exercise 5
- Exercise 6 Multi-view Stereo - Upload: 23.01.2020 Deadline: 02.02.2020 Discussion: 03.02.2020 exercise 6