700.170 (23W) Communication Systems Engineering
Überblick
- Lehrende/r
- LV-Titel englisch Communication Systems Engineering
- LV-Art Vorlesung
- LV-Modell Präsenzlehrveranstaltung
- Semesterstunde/n 2.0
- ECTS-Anrechnungspunkte 3.0
- Anmeldungen 60
- Organisationseinheit
- Unterrichtssprache Englisch
- LV-Beginn 02.10.2023
- eLearning zum Moodle-Kurs
Zeit und Ort
LV-Beschreibung
Intendierte Lernergebnisse
This lecture allows to acquire the methods and the tools to analyze and understand a communication system. The learning outcomes are:
- Principles and relevant concepts in communication systems engineering.
- Mathematical description of a system.
- Knowledge of signaling theory with application to communication systems.
- Element of probability and random processes
- Methods for analyzing performance of communication systems.
Lehrmethodik
- Lectures with slides and the aid of the white board
- Practical examples
- The lecture is accompanied by a lab (Kurs) where the concepts explained in the lecture are applied through specific exercises and numerical analyzes using Matlab.
Inhalt/e
The lecture Communications Systems Engineering deals with the most important concepts and techniques for the transmission of signals and data. It first provides the tools for signal representation and analysis. Then, it describes fundamental techniques to transmit data over a communication channel. The lecture is accompanied by a Kurs where the concepts explained in the lecture are recalled through exercises and numerical examples in MATLAB/SIMULINK.
The lecture program is the following:
- Introduction to communication systems
- Basics of signal representation and properties
- Fourier series for periodic continuous time signals
- Convolution of two signals
- Fourier transform for continuous time signals
- Complex representation of bandpass signals
- Baseband representation of systems
- Review of basic concepts of theory of probability
- Basics of random processes
- Analog modulation techniques (linear, Am and FM modulations)
- Digital base band modulation
- Receiver for digital modulation
- Bandpass digital modulation (linear and continuous phase modulation)
Erwartete Vorkenntnisse
- Mathematics: functions and signals, integration
- Elements of probability: random variables and statistical description, expectation
Literatur
- L. W. Couch II, Digital and Analog Communication Systems, Pearson, 2013. In particular, Chapter 2, 4, 6 (signals, systems, random processes); Chapter3 and 5 (we only a cover principles of modulation)
- Slides and class notes.
Link auf weitere Informationen
http://www.andreatonello.com/teaching/
Prüfungsinformationen
Prüfungsmethode/n
- written test (1.5 hours)
- oral exam and discussion about the written test (approx. 15 min)
Prüfungsinhalt/e
Topics of the lectures. Sample of written test will be provided.
Beurteilungskriterien/-maßstäbe
Written test: lecture topics
Oral exam: discussion on the written test and related topics
Beurteilungsschema
Note BenotungsschemaPosition im Curriculum
- Bachelorstudium Informationstechnik
(SKZ: 289, Version: 22W.1)
-
Fach: Signale und Systeme
(Pflichtfach)
-
7.3 Nachrichtentechnik (
0.0h VO / 3.0 ECTS)
- 700.170 Communication Systems Engineering (2.0h VO / 3.0 ECTS) Absolvierung im 3. Semester empfohlen
-
7.3 Nachrichtentechnik (
0.0h VO / 3.0 ECTS)
-
Fach: Signale und Systeme
(Pflichtfach)
- Bachelorstudium Informationstechnik
(SKZ: 289, Version: 17W.1)
-
Fach: Signale und Systeme
(Pflichtfach)
-
6.3 Nachrichtentechnik (
0.0h VO / 3.0 ECTS)
- 700.170 Communication Systems Engineering (2.0h VO / 3.0 ECTS) Absolvierung im 4. Semester empfohlen
-
6.3 Nachrichtentechnik (
0.0h VO / 3.0 ECTS)
-
Fach: Signale und Systeme
(Pflichtfach)
- Bachelorstudium Informationstechnik
(SKZ: 289, Version: 12W.2)
-
Fach: Signale und Systeme
(Pflichtfach)
-
Nachrichtentechnik (
2.0h VO / 3.0 ECTS)
- 700.170 Communication Systems Engineering (2.0h VO / 3.0 ECTS) Absolvierung im 4. Semester empfohlen
-
Nachrichtentechnik (
2.0h VO / 3.0 ECTS)
-
Fach: Signale und Systeme
(Pflichtfach)
- Bachelorstudium Technische Mathematik
(SKZ: 201, Version: 17W.1)
-
Fach: Informationstechnik
(Wahlfach)
-
14.2 Nachrichtentechnik (
2.0h VO / 3.0 ECTS)
- 700.170 Communication Systems Engineering (2.0h VO / 3.0 ECTS) Absolvierung im 2., 4., 6. Semester empfohlen
-
14.2 Nachrichtentechnik (
2.0h VO / 3.0 ECTS)
-
Fach: Informationstechnik
(Wahlfach)
- Bachelorstudium Robotics and Artificial Intelligence
(SKZ: 295, Version: 22W.1)
-
Fach: Information and Communications Engineering
(Pflichtfach)
-
5.4 Communication Systems Engineering (
2.0h VO / 3.0 ECTS)
- 700.170 Communication Systems Engineering (2.0h VO / 3.0 ECTS)
-
5.4 Communication Systems Engineering (
2.0h VO / 3.0 ECTS)
-
Fach: Information and Communications Engineering
(Pflichtfach)
Gleichwertige Lehrveranstaltungen im Sinne der Prüfungsantrittszählung
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Wintersemester 2022/23
- 700.170 VO Nachrichtentechnik (2.0h / 3.0ECTS)
-
Wintersemester 2021/22
- 700.170 VO Nachrichtentechnik (2.0h / 3.0ECTS)
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Wintersemester 2020/21
- 700.170 VO Nachrichtentechnik (2.0h / 3.0ECTS)
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Sommersemester 2020
- 700.170 VO Nachrichtentechnik (2.0h / 3.0ECTS)
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Sommersemester 2019
- 700.170 VO Nachrichtentechnik (2.0h / 3.0ECTS)
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Sommersemester 2018
- 700.170 VO Nachrichtentechnik (2.0h / 3.0ECTS)
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Sommersemester 2017
- 700.170 VO Nachrichtentechnik (2.0h / 3.0ECTS)
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Sommersemester 2016
- 700.170 VO Nachrichtentechnik (2.0h / 3.0ECTS)
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Sommersemester 2015
- 700.170 VO Nachrichtentechnik (2.0h / 3.0ECTS)
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Sommersemester 2014
- 700.170 VO Nachrichtentechnik (2.0h / 3.0ECTS)
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Sommersemester 2013
- 700.170 VO Nachrichtentechnik (2.0h / 3.0ECTS)