|Website:||website containing additional information|
|Period:||periode 3 (week 6 t/m 15, dwz 6-2-2017 t/m 13-4-2017; herkansing week 27)
|Participants:||up till now 74 subscriptions|
|Schedule:||Official schedule representation can be found in Osiris|
|week: 15||di 11-4-2017||13.30-16.30 uur||zaal: OLYMPOS-HAL2|
|week: 27||di 4-7-2017||13.30-16.30 uur||zaal: BBG-169||aanvullende toets|
|Contents:||The goal of computer vision is to allow computers to recognize and understand the world through visual information such as images or videos.
In this course, you will learn how cameras capture the 3D world, how to combine different views to reconstruct the world in 3D, how images can be described and how we can train algorithms to recognize what's on images. The course is centered around two main themes:
- Multi-view reconstruction: construct a 3D object from multiple views
- Image classification: classify novel images based on supervised learning
Programming skills in C/C++ are required. This course emphasizes the practicality of computer vision, meaning more projects, which are more fun.
|Literature:||Richard Szeliski, "Computer Vision: Algorithms and Applications", 2010 (download here)|
|Course form:||The course combines theory (lectures, tested during exam) and practice (assignments). The assignments are an important part of the course and final grade. Programming skills in C/C++ are required.|
|Exam form:||The final grade is average of the following assessments:
The minimum final grade to pass the course is 6.
- Assignments [50%]
- Final exam [50%]
|Minimum effort to qualify for 2nd chance exam:||To qualify for the exam re-take, the grade on the exam must be at least 4.|
|Description:||Please contact Ronald Poppe for more information about the course.|