700.650 (20W) Signal Processing for Communications

Wintersemester 2020/21

Ende der Anmeldefrist
30.10.2020 23:59

Erster Termin der LV
05.10.2020 16:30 - 18:30 , online Off Campus
Nächster Termin:
09.11.2020 16:30 - 18:30 , online Off Campus

Überblick

Bedingt durch die COVID-19-Pandemie können kurzfristige Änderungen bei Lehrveranstaltungen und Prüfungen (z.B. Absage von Präsenz-Lehreveranstaltungen und Umstellung auf Online-Prüfungen) erforderlich sein.

Weitere Informationen zum Lehrbetrieb vor Ort finden Sie unter: https://www.aau.at/corona.
Lehrende/r
LV-Titel englisch
Signal Processing for Communications
LV-Art
Vorlesung mit künstl. Einzelu. (prüfungsimmanente LV )
LV-Modell
Onlinelehrveranstaltung
Semesterstunde/n
2.0
ECTS-Anrechnungspunkte
4.0
Anmeldungen
7 (25 max.)
Organisationseinheit
Unterrichtssprache
Englisch
LV-Beginn
05.10.2020
eLearning
zum Moodle-Kurs

Zeit und Ort

Beachten Sie bitte, dass sich aufgrund von COVID-19-Maßnahmen die derzeit angezeigten Termine noch ändern können.
Liste der Termine wird geladen...

LV-Beschreibung

Intendierte Lernergebnisse

  • Signal analysis in communications
  • Analog modulation
  • Digital modulation 
  • Quantization
  • Equalization 
  • Channel estimation

Lehrmethodik inkl. Einsatz von eLearning-Tools

  • Lectures with slides and the aid of the white board
  • Practical examples
  • The lecture is accompanied by a course (KS) where the concepts explained in the lecture are applied through specific exercises.

Inhalt/e

The class deals with signal processing for communication systems. Focus is given to the physical layer and the use of signals to model and analyze the full transmission chain. Analog and digital modulation will be explained as well as key algorithms as the optimal receiver and equalization. The student will become familiar not only with communication systems but also will acquire familiarity with deterministic and stochastic signals as well as processing of data which has application in many different fields of information and communication technology. 

Erwartete Vorkenntnisse

  • Signal theory (analog and digital signals, filtering, Fourier transform)
  • Probability theory and stochastic processes
  • Elements of communication engineering (Nachrichtentechnik)

These fundamental concepts will be shortly discussed again at the beginning of the course.

Literatur

  • Class notes
  • Digital Communications (Proakis)
  • Digital and analog communication systens (Couch)

Link auf weitere Informationen

www.andreatonello.com

Prüfungsinformationen

Prüfungsmethode/n

  • Written test (1.5 hours)
  • Oral exam (approx. 15 min)
  • Assignments (mandatory) count for 30% of the global grade

Prüfungsinhalt/e

Topics of the lectures. Sample of written test will be also provided during the course. 

Beurteilungskriterien/-maßstäbe

  • Written exam: lecture topics (from 3 to 5 exercises)
  • Oral exam: discussion on the written test and related topics
  • Assignments: exercises and matlab simulations of the related topics (30% of final grade)

Beurteilungsschema

Note/Grade Benotungsschema

Position im Curriculum

  • Masterstudium Information and Communications Engineering (ICE) (SKZ: 488, Version: 15W.1)
    • Fach: Networks and Communications: Fundamentals (NC) (Pflichtfach)
      • Signal Processing for Communications V ( 0.0h VK / 4.0 ECTS)
        • 700.650 Signal Processing for Communications (2.0h VK / 4.0 ECTS)
  • Masterstudium Information and Communications Engineering (ICE) (SKZ: 488, Version: 15W.1)
    • Fach: Information and Communications Engineering: Supplements (NC, ASR) (Wahlfach)
      • Wahl aus dem LV-Katalog (Anhang 4) ( 0.0h VK, VO, KU / 14.0 ECTS)
        • 700.650 Signal Processing for Communications (2.0h VK / 4.0 ECTS)
  • Masterstudium Information and Communications Engineering (ICE) (SKZ: 488, Version: 15W.1)
    • Fach: Technical Complements (NC, ASR) (Wahlfach)
      • Wahl aus dem LV-Katalog (Anhang 5) ( 0.0h VK, VO, KU / 12.0 ECTS)
        • 700.650 Signal Processing for Communications (2.0h VK / 4.0 ECTS)
  • Masterstudium Information and Communications Engineering (ICE) (SKZ: 488, Version: 15W.1)
    • Fach: Information and Communications Engineering: Supplements (NC, ASR) (Wahlfach)
      • Wahl aus dem LV-Katalog (Anhang 4) ( 0.0h VK, VO, KU / 14.0 ECTS)
        • 700.650 Signal Processing for Communications (2.0h VK / 4.0 ECTS)
  • Masterstudium Information and Communications Engineering (ICE) (SKZ: 488, Version: 15W.1)
    • Fach: Technical Complements (NC, ASR) (Wahlfach)
      • Wahl aus dem LV-Katalog (Anhang 5) ( 0.0h VK, VO, KU / 12.0 ECTS)
        • 700.650 Signal Processing for Communications (2.0h VK / 4.0 ECTS)
  • Masterstudium Information and Communications Engineering (ICE) (SKZ: 488, Version: 15W.1)
    • Fach: Networks and Communications (WI) (Wahlfach)
      • Signal Processing for Communications ( 0.0h VK / 4.0 ECTS)
        • 700.650 Signal Processing for Communications (2.0h VK / 4.0 ECTS)
  • Masterstudium Information and Communications Engineering (ICE) (SKZ: 488, Version: 15W.1)
    • Fach: Networks and Communications (WI) (Wahlfach)
      • Wahl aus dem LV-Katalog (siehe Anhang 2) ( 0.0h VO, VK / 30.0 ECTS)
        • 700.650 Signal Processing for Communications (2.0h VK / 4.0 ECTS)
  • Masterstudium Mathematics (SKZ: 401, Version: 18W.1)
    • Fach: Information and Communications Engineering (Wahlfach)
      • 9.3 Signal Processing for Communications ( 2.0h VC / 4.0 ECTS)
        • 700.650 Signal Processing for Communications (2.0h VK / 4.0 ECTS)

Gleichwertige Lehrveranstaltungen im Sinne der Prüfungsantrittszählung

Wintersemester 2019/20
  • 700.650 VK Signal Processing for Communications (2.0h / 4.0ECTS)
Wintersemester 2018/19
  • 700.650 VC Signal Processing for Communications (2.0h / 4.0ECTS)
Wintersemester 2017/18
  • 700.650 VC Signal Processing for Communications (2.0h / 4.0ECTS)
Wintersemester 2016/17
  • 700.650 VC Signal Processing for Communications (2.0h / 4.0ECTS)
Wintersemester 2015/16
  • 700.650 VC Signal Processing for Communications (2.0h / 4.0ECTS)
Wintersemester 2012/13
  • 700.650 VK Signal Processing Architectures (2.0h / 4.0ECTS)