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Course Catalog 2010-2011
SGN-9906 Short International Course in Signal Processing, 1-5 cr |
Person responsible
Atanas Gotchev
Requirements
Active attendance at lectures (>70%), three laboratory works and one assignment for groups of two persons;
Principles and baselines related to teaching and learning
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Learning outcomes
The course targets new and emerging 3D Media Technologies and will provide in-depth knowledge about the creation, processing, delivery and visualization of 3D moving scenes. After the course, the students will know the basics of binocular vision and how they are taken into account while capturing and processing 3D video. The students will be able to design application-specific multi-camera capture system. They will know the principles and the state-of-the-art techniques for compression and transmission of 3D video as well as its display on stereoscopic and auto-stereoscopic 3D displays. The students will have knowledge about typical 3D artifacts appearing during the stages of capture, format conversion, compression and transmission and the advanced signal processing methods which can tackle them.
Content
Content | Core content | Complementary knowledge | Specialist knowledge |
1. | Binocular vision; how brain perceives depth | Convergence and accomodation | Vision processing paths |
2. | Single-camera and multi-camera 3D video capture; 3D and epipolar geometry. Structure from stereo; structure from motion. Depth range sensors. | Calibration and rectification of two cameras. Depth estimation. | Calibration and rectification of multiple cameras; Temporally-consistent depth estimation. |
3. | 3D video representation formats: multiview video; video+depth; view + layered depth; depth-enhanced stereo; multi-view plus multi-depth | Format conversion; | Representation-specific 3D artifacts. |
4. | Compression of 3D video. Multi-view compression. Compression of depth.Emerging standards for 3D video compression. Transmission of 3D vieo over packet networks. Broadcasting. | Luminance compensation in 3D compression. Error-resilient transmission of 3D video. | 3D compression-specific and transmission-specific artifacts and post-filtering. |
5. | 3D displays. Stereoscopic and autostereoscopic displays. | Display-specific artifacts | Quality measurements for 3D displays |
Evaluation criteria for the course
Three laboratory works and one assignment should be completed. Course grade is computed as follows: First laboratory work - 20% of the mark, second laboratory work - 20% of the mark, third laboratory work - 20% of the mark, completed assignment ¿ 40% of the mark. All four units must be passed otherwise final mark is not given. There is no exam.
Assessment scale:
Numerical evaluation scale (1-5) will be used on the course
Study material
Type | Name | Author | ISBN | URL | Edition, availability, ... | Examination material | Language |
Book | 3D Video Communication | Shreer, Kauff, Sikora | 0-470-02271-X | English |
Prerequisites
Course | Mandatory/Advisable | Description |
SGN-3016 Digital Image Processing I | Mandatory | |
SGN-3057 Digital Image Processing II | Advisable | |
SGN-3106 Digital Video Processing | Mandatory | |
SGN-3156 Video Compression | Advisable |
Prerequisite relations (Requires logging in to POP)
Correspondence of content
There is no equivalence with any other courses
Additional information
Suitable for postgraduate studies