Computer Vision II: Multiple View Geometry

The module is focused on the mathematical aspects of multiple view geometry. The central challenge addressed in this class is the reconstruction of 3D geometry and camera motion from multiple images. To this end, the students will get a brief review of the main concepts of linear algebra (including matrix rank, SVD, various matrix groups). Students will learn about camera motion and perspective projection, camera calibration, epipolar geometry, the epipolar constraint, the 8-point algorithm, multiview matrices, rank constraints, bundle adjustment. Finally they will learn about the reconstruction of dense geometry. The key concepts will be implemented in Matlab to provide hands-on experience.

Upon successful completion of the module, students understand the mathematics of image formation and are able to recover camera motion and 3D geometry from images. Moreover, the students are able to implement the basic concepts in Matlab.

MA0901 Linear Algebra for Informatics
MA0902 Analysis for Informatics

The main concepts will be presented in the lecture. During the tutorial, related exercises and discussions will deepen the understanding. Besides theoretical exercises, there will be programming exercises.

Tutor presentation, interactive problem solving, discussion

An Invitation to 3D Vision (Y. Ma, S. Soatto, J. Kosecka, S. Sastry)
Multiple View Geometry in Computer Vision (R. Hartley, A. Zissermann)

The exam takes the form of a 120 minutes written test. In the written exam students should prove that they understood the reconstruction of 3D geometry and camera motion from multiple images. The questions will focus on the key concepts which have been discussed during the lecture and the tutorials. Mathematical proofs of the central concepts and questions about the implementation in Matlab assess acquaintance with the concepts in multiple view geometry.