After successful completion of the course, students are able to apply appropriate formal-mathematical methods for modelling, abstraction, solution finding and evaluation in the field of 3D computer vision and acquire problem formulation and problem solving competence. Furthermore, they are able to handle subject-specific hardware and software and to successfully convert real objects into 3D models. In addition to the lecture, students will learn about and solve real-world problems such as geometry, lighting, ambient light, etc. After successful completion of the course, students will be able to create a 3D model from photographs using a Structure from Motion program. Also they are able to process point clouds and surface models with appropriate software, in order to obtain a watertight 3D model.
PhotogrammetryScanning of objectsPath from image capture to final 3D objectDeepens the content of the lectureGeomagic as a 3D image processing packageFinal presentation of results
independent solving and scientific discussion of subject-related examples and charges. The course consists of a lecture part and an exercise part. The described contents and concepts will be explained in the course of the lecture unit and tested and applied in practice in the exercise part.
ECTS Breakdown - 3 ECTS = 75h
20h Programming exercises10h Photographs for photogrammetry model10h Creation of photogrammetry model10h Editing of photogrammetry model15h Writing a report about programming exercise, 3D reconstruction and editing10h delivery discussion (+ preparation)------ 75h
Elaboration of exercise examples, delivery discussions, oral presentation of the results
Ort: TISS
It is adviced to attend the lecture 3D Vision in parallel
