Course code: 253504 | Subject title: INTERACTIVE DIGITAL TELEVISION | ||||
Credits: 6 | Type of subject: Mandatory | Year: 3 | Period: 1º S | ||
Department: Ingeniería Eléctrica, Electrónica y de Comunicación | |||||
Lecturers: | |||||
LOAYSSA LARA, ALAYN (Resp) [Mentoring ] | LEANDRO GONZALEZ, DANIEL [Mentoring ] |
Module: Specific training in Sound and Image
Matter: Audiovisual and multimedia services
G2 - Teamwork
G3. Self-directed learning
G4 - Efficiency in oral and written communication.
G5 - Efficiency in the management of information resources.
G7 - Ability to conceive, design, implement and operate systems and services in the field of ICT
CB2 - That students know how to apply their knowledge to their work or vocation in a professional way and possess the skills that are usually demonstrated by developing and defending arguments and solving problems within their area of study
CB3 - That students have the ability to gather and interpret relevant data (usually within their study area) to make judgments that include reflection on important issues of social, scientific or ethical nature.
CB4 - That students are capable of communicating information, ideas, problems and solutions to both specialised and non-specialised audiences.
CB5 - That students have developed the learning skills required to undertake further study with a high degree of autonomy
3.23 - Ability to build, operate and manage telecommunications services and applications, understood as capture systems, analog and digital processing, coding, transport, representation, processing, storage, reproduction, management and presentation of audiovisual services and multimedia information.
3.24 - Ability to analyze, define, perform and maintain television, audio and video systems, equipment, headers and installations, both in fixed and mobile environments.
3.27 - Ability to create, encode, manage, disseminate and distribute multimedia content, according to criteria of usability and accessibility of audiovisual, both for broadcast and interactive services.
R1. Relating the technological characteristics of television systems to the physiological characteristics of human vision
R2. Explain the main characteristics of the different formats and techniques of encoding and multiplexing of video, television and multimedia contents.
R3. Use the different formats and techniques of encoding and multiplexing of video, television and multimedia content in the context of the design and use of audiovisual content distribution networks.
R4. Select, configure and use hardware and software tools for encoding and multiplexing video, television and multimedia content.
R5. Explain the architecture of the different networks used for the distribution of video, television, multimedia and interactive content.
R6. Select and use distribution networks for video, television, multimedia and interactive signals
R7. Explain the main characteristics of television interactivity systems in relation to the distribution, generation and presentation of interactive applications.
R8. Understand manuals and specifications of components, equipment and systems in English. Search for information in books and online resources in English.
R9. Work in a group effectively, identifying the objectives of the group and planning the work to achieve them, as well as assuming the responsibilities and commitments associated with the assigned task.
R10. Use available resources and services to run simple searches for information. Classify and synthesize the information collected. Value intellectual property and properly cite sources.
R11. Plan the recommended tasks so that they are carried out according to the guidelines set by the teacher and in the foreseen time. Evaluate the degree of compliance with the learning objectives and detect problems in the training progress itself.
R12. Raise and solve problems from open situations with incomplete requirements.
learning activities | Methodology | presential hours | non-presential hours |
Lectures | Presentations. Problem solving. cooperative learning activities. | 30 | |
Practical group projects | Project-based learning | 30 | 30 |
self-study | Autonomous learning | 56 | |
Exams, evaluation tests | 4 | ||
Total: | 64 | 86 |
Evaluation method | min. grades | Recoverable | Weigh (%) |
Continous evaluation tests | 5/10 | Sí | 51% |
Practical group projects | No | No | 49% |
There is the possibility of an additional exam in case the student does not obtain the minimum grades to pass the continuous evaluation.
The 49% of the final grade assigned to lab projects is NOT recoverable.
Learning outcome | Evaluation method | Weigh (%) | Recoverable |
R1, R2, R5, R7 | Continous evaluation exams | 51% | Yes |
R3, R4, R6, R8, R9, R10, R12 | Lab. projects | 49% | NO |
0. INTRODUCTION
Description of objectives, contents, methodology, evaluation method and bibliography
1. BASIC CONCEPTS
Elements of a TV system
Conversion of a real-world scene to a signal
Digital TV signals
Screens. Gamma correction.
Intro to color.
Chroma subsampling
Resolution: SDTV, HDTV, 4K, 8K
SDI, HD-SDI standards
2. VIDEO COMPRESSION
Types of Redundancies in the video signal
Compression tools: DCT, entropy coding, motion compensation
MPEG-2
MPEG-4
H.264
Intro to audio compression
3. Digital TV multiplex
MPEG 2 transport streams.
PSI
Media containers
4: DVB digital TV distribution
DVB-SI
DVB channel coding
Modulation and distribution networks: DVB-S, DVB-T, DVB-C
5. IP VIDEO DISTRIBUTION
Video over IP
IPTV
Video streaming
6. INTERACTIVE TV
DVB Data Broadcasting
Interactive services in DVB networks
Interactive TV applications
SDI video project
Video Compression analysis project
Digital TV distribution network project
Access the bibliography that your professor has requested from the Library.
* "Televisión Digital". Hervé Benoit. Thomson Paraninfo, 2004
* "Next Generation IPTV Services and Technologies" Gerard O'Driscoll. Wiley-Interscience (January 2, 2008)
* "Digital Video and HDTV: Algorithm and Interfaces". C. Poynton. Morgan Kaufmann, 2003
* "H.264 and MPEG-4 Video Compression" Iain E.G. Richardson, Wiley, 2003
* "RTP Audio and Video For the Internet" Colin Perkins, Addison Wesley,2006