Lehrveranstaltungshandbuch Advanced Multimedia Communications
Verantwortlich: Prof.Dr.Grebe
Lehrveranstaltung
Befriedigt Modul (MID)
Organisation
| Version |
| erstellt |
2013-04-25 |
| VID |
2 |
| gültig ab |
WS 2012/13 |
| gültig bis |
|
|
|
| Bezeichnung |
| Lang |
Advanced Multimedia Communications |
| LVID |
F07_AMC |
| LVPID (Prüfungsnummer) |
|
|
| Semesterplan (SWS) |
| Vorlesung |
2 |
| Übung (ganzer Kurs) |
2 |
| Übung (geteilter Kurs) |
|
| Praktikum |
1 |
| Projekt |
|
| Seminar |
|
| Tutorium (freiwillig) |
|
|
|
| Präsenzzeiten |
| Vorlesung |
30 |
| Übung (ganzer Kurs) |
30 |
| Übung (geteilter Kurs) |
|
| Praktikum |
15 |
| Projekt |
|
| Seminar |
|
| Tutorium (freiwillig) |
|
|
|
| max. Teilnehmerzahl |
| Übung (ganzer Kurs) |
30 |
| Übung (geteilter Kurs) |
|
| Praktikum |
15 |
| Projekt |
|
| Seminar |
|
|
Gesamtaufwand: 150
Unterrichtssprache
Niveau
Notwendige Voraussetzungen
- Grundlegende Kenntnisse zu Protokollen und Schichtenmodellen
- Grundlegende Kenntnisse von Internetprotokollen (UDP, TCP, IP, HTTP, FTP)
- Kenntnisse zu Routingtechniken (IP Routing, Funktionsweise eines Router, Routingprotokolle)
- Grundlegende Kenntnisse zu Übertragungssystemen und Schicht-2-Protokollen
- Vorstellung zum Socketbegriff und Client-/Server-Programmierung
Literatur
- R. Steinmetz, K. Nahrstedt: „Multimedia Systems“, Springer 2004
- S. Weinstein: „The Multimedia Internet“, Springer, 2005
- R. Steinmetz, „Multimedia-Technologie“, Springer 2000
- U.Trick, F. Weber: SIP, TCP/IP und Telekommunikationsnetze, Oldenbourg Verlag, 4. Auflage 2009
- J. Kurose, K. Ross: "Computer Networking - A Top-Down Approach", 6th edition, Addison-Wesley 2011
- A. Badach, E. Hoffmann: "Technik der IP-Netze", 2. Auflage, Hanser Verlag 2007
- Several RFC www.ietf.org, and TS www.3gpp.org
Dozenten
Wissenschaftliche Mitarbeiter
- Dipl.-Inf. Michael Willecke
Zeugnistext
Advanced Multimedia Communications
Kompetenznachweis
| Form |
| sMP |
Regelfall (bei großer Prüfungszahl: sK) |
Intervall: 3/Jahr
Lehrveranstaltungselemente
Vorlesung/Übung
Lernziele
Kenntnisse
- Multimedia Fundamentals
- Definition of Multimedia
- Integration of Data, Audio, Video
- IP Streaming
- Multimedia Systems
- Technological Drivers
- Multimedia Communications
- Requirements
- Challenges
- Quality of service
- Standards and Architectures
- Multimedia Traffic
- Multimedia Source Coding
- Audio: PCM, GSM, MP3, AAC
- Video: MPEG-2, H.264
- Multimedia Transport
- Multimedia Encapsulation
- MPEG-TS
- RTP/RTCP
- Quality of Services
- QoS / QoE Definition
- QoS Network Parameter
- QoE - MOS Rating
- Error Correction Methods
- Modeling of Multimedia Traffic
- Multiservice Networks
- Network Architectures and Network Elements
- Network Resource Management
- Traffic Classification
- Traffic Measurement
- Traffic Shaping
- IntServ QoS
- DiffServ QoS
- VLAN CoS
- TOS
- DiffServ Concepts
- QoS Routing
- Queueing and Condestion Control
- Definition of Congestion and Queueing
- Queueing Concept
- Queueing Algorithms
- FIFO
- Rounf Robin RR
- Fair Queueing FQ
- Weighted Round Robin WRR
- Weighted Fair Queueing WFQ
- Priority Queueing PQ
- Multiservice Scheduling
- Low Latency Queueing LLQ
- Class Based Priority Queueing CB-PQ
- Class-Based Weighted Fair Queueing CB-WFQ
- Congestion Control
- Congestion Mechanisms
- Congestion Avoidance
- Random Early Detect RED
- Class-Based Weighted RED CB-WRED
Fertigkeiten
- Evaluate and rate technological and architectural developments of Multimedia services and networks
- Analyse requirements of Multimedia Services and Systems
- Design Architectures for Multiservice Networks
- Design Architectures for Multimedia Services
- Implement Multimedia network environments
- Analyse of Multimedia communication protocols and network metrics
Begleitmaterial
- digital slices of lectures
- digital exercises manual
- digital reports on students projects
Besondere Voraussetzungen
Besondere Literatur
Besonderer Kompetenznachweis
| Form |
| bÜA |
seminarian exercise |
| bPA |
course project |
| Beitrag zum LV-Ergebnis |
| bPA |
graded |
| bÜA |
non graded |
Intervall: 1/Jahr
Praktikum
Lernziele
Kenntnisse
- Architecture of IP Multimedia environments
- VoIP applications
- Video over IP applications
- Streaming Server Systems
- Multimedia in Mobile and Fixed networks
- Multimedia Location Based Services
- Functional behavior of Multimedia signaling
- Functional behavior of Mutlimedia transport
Fertigkeiten
- Set-up of IP Multimedia environments in cource projects, e.g.
- VoIP applications
- Video over IP applications
- Streaming Server Systems
- Multimedia in Mobile and Fixed networks
- Multimedia Location Based Services
- Implement and test QoS enabed IP networks
- Implement appropriate QoS clients and application specific servers
- Analysis of Multimedia Service signaling
- Analysis of Multimedia Application Requirements and Behavior
- Evaluation of Multimedia network traffic load and distribution
Handlungskompetenz demonstrieren
- Demonstrate kowledge and skills in professional environment with industrial system components (workstation, server, switch, router, end-user devices)
- Analysis of technological advanced scenarios in tiny project groups
Begleitmaterial
- digital manuals for several applications, servers or network elements
- digital reports on students projects
- numerous materials in the web like whitepapers, manuals, developer blogs
Besondere Voraussetzungen
Besondere Literatur
Besonderer Kompetenznachweis
| Form |
| bÜA |
seminarian exercise |
| bPA |
course project |
| bFG |
project milestone reviews |
| sMB |
final results presentation |
| sSB |
final report |
| Beitrag zum LV-Ergebnis |
| bPA |
graded |
| bÜA |
non graded |
| pPA |
graded |
Intervall: 1/Jahr
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