ADVANCED
TELEVISION TECHNIQUES CRN:15386 TEL507E
Graduate Course (3
hours/week)
Schedule: Mon. 13:30-16:30
Prof. Dr. Melih PAZARCI
Course Outline: Revision Fall 2016
A review of
general multidimensional signals and systems, vision, properties of images,
transforms, color, motion, image evaluation, sampling, video components and
formats, standards, evolution of HDTV, video artifacts, digital video
processing, intra/inter-frame processing, multidimensional filtering
applications, compression, JPEG, MPEG, H264/265, MVC, compression artifacts,
coding, distribution, receiver processing, system examples, HDTV,
3D vision, 3D-TV
NOTE: Some topics may not be
covered
due to time limitations.
Text Book: ---
.
IF YOU ARE NOT SURE WHETHER YOU FULLFILL THEM OR NOT, SEE THE
INSTRUCTOR!
Prerequisites: (Requirements
for students who take the course)
1- A satisfactory level of
English: students will be required to read a lot of notes and
material
in English; they should be able to comprehend the read material;
classes
will be conducted in English (not quasi-English), hence the students
must
also be able to understand spoken English. Although, all Yüksek Lisans
students must have and are assumed to have basic English skills, my
experience
shows that this assumption is false!
2- A basic (elementary) knowledge
on television (e.g., the undergraduate course Radyo-TV
Sistemleri
or similar is sufficient for this purpose),
3- Knowledge
of Matlab or C-Programming (students are required to be capable
of basic programming, and must have access to a
PC; those that do not meet this requirement must learn Matlab or
C-programming by mid-October!; learning Matlab or C is not hard
and should not be a deterrent for avoding this course).
Other:
- Attendance is
required and will be taken at every session. Students with attendance
less
than 70% (must have attended at least 9 out of the 13 classes with
attendance
taken) will not be allowed to continue this class and take the final
exam.
Students who accumulate 5 absences will automatically fail this class,
and will not be allowed to take any exams from that point on during the
semester.
- Your course grade will be calculated using your
midterm and final tests, computer projects, and your term
paper/presentation
(project). Homeworks and the project requirement must be fullfilled to
take the final! Blank or photocopy homeworks do not count!
- Instructor office hours will be announced after
the term starts. Instructor may be reached @ 285 3504 Tel, or e-mail:
pazarci@itu.edu.tr
DERS NOTUNUN BELİRLENMESİ
|
Adedi |
Birim Ağırlık (%) |
Toplam Ağırlık (%) |
| Yıl içi sınavları |
1 |
21
|
21
|
| Kısa Sınav |
0 |
NA |
0 |
| Ödev |
3
|
3 |
9
|
| Proje |
2 |
15 |
30 |
| Final |
1 |
40 |
40 |
1)- Yoklamalarda en az 9/13 devam (veya 8/12 eğer
yapılamayan ders olursa)
2)- Ödevlerin yapılmış olması,
3)- Projelerin yapılmış olması.
REFERENCES See
the Main Library
will be updated shortly for 2016
- M. Pazarcı ders notları ve yayınlar,
- Video Processing and
Communications, Y. Wang, J. Ostermann, Y. Zhang, Prentice Hall, 2002
- MPEG Digital Video Compression
Standard, J. Mitchell, et al., Chapman Hall 1996.
- The MPEG-4 Book, F. Pereira,
T. Ebrahimi, Prentice Hall, 2003
- Algorithms, Complexity Analysis
& VLSI Arch. for MPEG-4 Motion Estimation, P. Kuhn, Kluwer, 1999
- JPEG Still Image Data Compression
Standard, Pennebaker & Mitchell, Van Nostrand, 1993,
- Multidimensional Digital Signal
Processing, Dudgeon & Merserau, Prentice Hall 1984.
- Discrete Cosine
Transform-Algorithms, Advantages, Applications, Rao&Yip, Academic
Pr., 1990,
- Two Dimensional Signal and Image
Processing, Lim, Prentice Hall 1990,
- Data and Image Compression 4th Ed.,
Gilbert Held, Wiley, Feb 1996,
- Transmission and Display of
Pictorial Information, Pearson, John Wiley & Sons, 1975,
- Fundamentals of Digital Image
Processing, Jain, Prentice Hall 1989,
- Digital Image Processing, Pratt,
2nd Ed., John Wiley & Sons, 1991,
- Vector Quantization and Signal
Compression, Gersho & Gray, Kluwer, 1992
- Motion Estimation Algorithms for
Video Compression, B. Furht, et. al., Kluwer 1996.
- Motion Analysis and Image Sequence
Processing, Ed. İ. Sezan, R. Lagendijk, Kluwer, 1993,
- ATM & MPEG-2, M. Orzessek, P.
Sommer, Prentice Hall, 1998,
- Digital Video Processing, Murat
Tekalp, Prentice Hall, 1996,
- Digital Television, C. Sandbank,
Wiley 1990,
- Color Television 2nd Ed., G.Hutson,
P. Shepherd, J. Brice, McGraw Hill 1990
- Digital Television Fundamentals,
M.Robin & M. Poulin, McGraw Hill, 1997
- Digital Consumer Electronics
Handbook, Ronald K. Jurgen, McGraw Hill, 1997
- M. Riley, E.G. Richardson, Digital
Video Communications, Artech House, 1997,
- Video and Image Processing in
Multimedia Systems, Fuhrt, Moliar, Zhang, Kluwer, 1995
- The Art of Digital Video (1st &
2nd Ed.), J. Watkinson, Focal Press (Bttwth-Heinemann), 1990,
- Arch Luter, Principles of Digital
Audio and Video, Artech House, 1997,
- Video Coding - The 2nd Generation
Approach, L. Torres, M. Kunt, Kluwer, 1996,
- Video Dialtone Technology: Digital
over ADSL, HFC, ... ATM, D. Minoli, McGraw Hill, 1995,
- HDTV - Advanced television for the
1990s, K. Benson, D.G. Fink, McGraw-Hill 1991,
- Subband and Wavelet Transforms:
Design and Applications, Ed: Akansu & Smith, Kluwer, 1996,
- Wavelets and Subband Coding, M.
Vetterli, J. Kovacevic, Prentice Hall, 1995.
- IEEE Trans. Consumer Electronics,
Communications, Signal Processing, Video Technology.
Return to list of courses
Rev. Sept. 5, 2016