700.600 (15W) Power Line Communications
Überblick
- Lehrende/r
- LV-Titel englisch Power Line Communications
- LV-Art Vorlesung-Kurs (prüfungsimmanente LV )
- Semesterstunde/n 2.0
- ECTS-Anrechnungspunkte 4.0
- Anmeldungen 7 (40 max.)
- Organisationseinheit
- Unterrichtssprache Englisch
- LV-Beginn 01.10.2015
- Anmerkungen NES
Zeit und Ort
Liste der Termine wird geladen...
LV-Beschreibung
Intendierte Lernergebnisse
Knowledge of PLC applications, standards, challenges and solutions for reliable communications over power line. Main differences w.r.t. wireless communication systems.Lehrmethodik inkl. Einsatz von eLearning-Tools
Lectures and some simulation exercise using Matlab.Inhalt/e
This class deals with Power Line Communication (PLC) systems, systems that convey information through the power delivery infrastructure. It covers the application scenarios of PLC (such as in-home, in-vehicle, and smart grids), channel characterization and modeling, PLC physical layer techniques, signal processing techniques in the context of PLC and the main aspects of the MAC layer. In more detail, the important topics of statistical channel and noise modeling will be illustrated. Similarities and differences with the wireless channel behavior and modeling will be discussed. The main challenges of physical layer design for both narrow-band (NB-PLC) and broad-band PLC (BB-PLC) to encompass the presence of channel attenuation and frequency selectivity, interference, and various noise sources will be addressed. In particular, focus will be given to single carrier modulation approaches, filter bank modulation approaches (as OFDM, DWMT, FMT) and ultra wide band techniques. The pros and cons of different transmission techniques will be analyzed and specific aspects that make PLC different from wireless communications will be emphasized. Some aspects related to the MAC protocols and signal processing for cooperative systems (as relaying) to enhance coverage and capacity will be presented. Finally, an overview of the main standards will be offered covering both NB-PLC and broad-band BB-PLC and explaining their intended use in different application scenarios.Themen
- History and evolution of Power Line Communication (PLC) technology
- PLC applications.
- Channel characterization: channel response, noise, interference.
- Channel modeling: top-down approach and statistical modeling.
- Principles of transmission line theory (TLT).
- Channel modeling: bottom-up approach using TLT.
- Background and impulsive noise models.
- Multiple input multiple output (MIMO) PLC.
- Physical layer techniques used in PLC: single carrier modulation, filter bank modulation, ultra wide band modulation.
- Media access control for PLC.
- Resource allocation algorithms.
- Relaying and cooperative schemes in the context of PLC.
- PLC standards and protocols: IEEE P1901, IEEE P1901.2, ITU G.hn, ITU G.hnem, PRIME, G3.
Lehrziel
The objective of the class is to gain experience about the emerging technology referred to as power line communication (PLC), PLC applications, standards, transmission principles, channel and noise characteristics, main PHY and MAC algorithms. The class provides the knowledge and the tools to allow an informed use of the technology, as well as to allow the design and development of PLC based solutions.Erwartete Vorkenntnisse
Communication principles, signal theory, statistics and random processes.Sonstige Studienbehelfe
There are 7 books of Power Line Communications, Theory and Applications for Narrowband and Broadband Communications over Power Line in the "Lehrbuchsammlung" library of University Klagenfurt. https://opac.aau.at/F/V64JE9CRJEC7SSU4QSF6P11AC9AR71DANP9CKGPJF6D3HNB9EQ-05014?func=item-global&doc_library=UBK01&doc_number=000744294&year=&volume=&sub_library=Literatur
Power Line Communications, Theory and Applications for Narrowband and Broadband Communications over Power Line, L. Lampe, E. Ferreira, J. Newbury, T. Swart, (ed.s), John Wiley & Sons. ISSN: 978-0-470-74030-9. Best Readings in Power Line Communications, IEEE Communications Society, online: http://www.comsoc.org/best-readings/powerline-communications Tutorial on Power Line Communications, A. M. Tonello (the material will be given to students).Intendierte Lernergebnisse
Knowledge of PLC applications, standards, challenges and solutions for reliable communications over power line. Main differences w.r.t. wireless communication systems.Lehrmethodik inkl. Einsatz von eLearning-Tools
Lectures and some simulation exercise using Matlab.Inhalt/e
This class deals with Power Line Communication (PLC) systems, systems that convey information through the power delivery infrastructure. It covers the application scenarios of PLC (such as in-home, in-vehicle, and smart grids), channel characterization and modeling, PLC physical layer techniques, signal processing techniques in the context of PLC and the main aspects of the MAC layer. In more detail, the important topics of statistical channel and noise modeling will be illustrated. Similarities and differences with the wireless channel behavior and modeling will be discussed. The main challenges of physical layer design for both narrow-band (NB-PLC) and broad-band PLC (BB-PLC) to encompass the presence of channel attenuation and frequency selectivity, interference, and various noise sources will be addressed. In particular, focus will be given to single carrier modulation approaches, filter bank modulation approaches (as OFDM, DWMT, FMT) and ultra wide band techniques. The pros and cons of different transmission techniques will be analyzed and specific aspects that make PLC different from wireless communications will be emphasized. Some aspects related to the MAC protocols and signal processing for cooperative systems (as relaying) to enhance coverage and capacity will be presented. Finally, an overview of the main standards will be offered covering both NB-PLC and broad-band BB-PLC and explaining their intended use in different application scenarios.Themen
- History and evolution of Power Line Communication (PLC) technology
- PLC applications.
- Channel characterization: channel response, noise, interference.
- Channel modeling: top-down approach and statistical modeling.
- Principles of transmission line theory (TLT).
- Channel modeling: bottom-up approach using TLT.
- Background and impulsive noise models.
- Multiple input multiple output (MIMO) PLC.
- Physical layer techniques used in PLC: single carrier modulation, filter bank modulation, ultra wide band modulation.
- Media access control for PLC.
- Resource allocation algorithms.
- Relaying and cooperative schemes in the context of PLC.
- PLC standards and protocols: IEEE P1901, IEEE P1901.2, ITU G.hn, ITU G.hnem, PRIME, G3.
Lehrziel
The objective of the class is to gain experience about the emerging technology referred to as power line communication (PLC), PLC applications, standards, transmission principles, channel and noise characteristics, main PHY and MAC algorithms. The class provides the knowledge and the tools to allow an informed use of the technology, as well as to allow the design and development of PLC based solutions.Erwartete Vorkenntnisse
Communication principles, signal theory, statistics and random processes.Sonstige Studienbehelfe
There are 7 books of Power Line Communications, Theory and Applications for Narrowband and Broadband Communications over Power Line in the "Lehrbuchsammlung" library of University Klagenfurt. https://opac.aau.at/F/V64JE9CRJEC7SSU4QSF6P11AC9AR71DANP9CKGPJF6D3HNB9EQ-05014?func=item-global&doc_library=UBK01&doc_number=000744294&year=&volume=&sub_library=Literatur
Power Line Communications, Theory and Applications for Narrowband and Broadband Communications over Power Line, L. Lampe, E. Ferreira, J. Newbury, T. Swart, (ed.s), John Wiley & Sons. ISSN: 978-0-470-74030-9. Best Readings in Power Line Communications, IEEE Communications Society, online: http://www.comsoc.org/best-readings/powerline-communications Tutorial on Power Line Communications, A. M. Tonello (the material will be given to students).Prüfungsinformationen
Im Fall von online durchgeführten Prüfungen sind die Standards zu beachten, die die technischen Geräte der Studierenden erfüllen müssen, um an diesen Prüfungen teilnehmen zu können.
Beurteilungskriterien/-maßstäbe
Written (questions related to the each main topic). No exercises. 1.5 hours followed by an oral discussion of the written exam (15 min).
Beurteilungskriterien/-maßstäbe
Written (questions related to the each main topic). No exercises. 1.5 hours followed by an oral discussion of the written exam (15 min).Beurteilungsschema
Note BenotungsschemaPosition im Curriculum
- Masterstudium Information and Communications Engineering (ICE)
(SKZ: 488, Version: 15W.1)
-
Fach: Networks and Communications: Advanced (NC)
(Wahlfach)
-
Wahl aus dem LV-Katalog (siehe Anhang 2) (
0.0h VO, VK / 30.0 ECTS)
- 700.600 Power Line Communications (2.0h VC / 4.0 ECTS)
-
Wahl aus dem LV-Katalog (siehe Anhang 2) (
0.0h VO, VK / 30.0 ECTS)
-
Fach: Networks and Communications: Advanced (NC)
(Wahlfach)
- 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)
- 700.600 Power Line Communications (2.0h VC / 4.0 ECTS)
-
Wahl aus dem LV-Katalog (Anhang 5) (
0.0h VK, VO, KU / 12.0 ECTS)
-
Fach: Technical Complements (NC, ASR)
(Wahlfach)
- 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)
- 700.600 Power Line Communications (2.0h VC / 4.0 ECTS)
-
Wahl aus dem LV-Katalog (Anhang 5) (
0.0h VK, VO, KU / 12.0 ECTS)
-
Fach: Technical Complements (NC, ASR)
(Wahlfach)
- Masterstudium Information Technology
(SKZ: 489, Version: 06W.3)
-
Fach: Technischer Schwerpunkt (Mobile and Wireless Systems)
(Pflichtfach)
-
1.1-1.3 Vorlesung mit Kurs oder Vorlesung mit Seminar (
6.0h VK/VS / 12.0 ECTS)
- 700.600 Power Line Communications (2.0h VC / 4.0 ECTS)
-
1.1-1.3 Vorlesung mit Kurs oder Vorlesung mit Seminar (
6.0h VK/VS / 12.0 ECTS)
-
Fach: Technischer Schwerpunkt (Mobile and Wireless Systems)
(Pflichtfach)
- Masterstudium Information Technology
(SKZ: 489, Version: 06W.3)
-
Fach: Technischer Schwerpunkt (Embedded Communications and Signal Processing)
(Pflichtfach)
-
1.1-1.3 Vorlesung mit Kurs oder Vorlesung mit Seminar (
6.0h VK/VS / 12.0 ECTS)
- 700.600 Power Line Communications (2.0h VC / 4.0 ECTS)
-
1.1-1.3 Vorlesung mit Kurs oder Vorlesung mit Seminar (
6.0h VK/VS / 12.0 ECTS)
-
Fach: Technischer Schwerpunkt (Embedded Communications and Signal Processing)
(Pflichtfach)
- Masterstudium Information Technology
(SKZ: 489, Version: 06W.3)
-
Fach: Technische Ergänzung I
(Pflichtfach)
-
2.1-2.2 Vorlesung mit Kurs oder Vorlesung mit Seminar (
4.0h VK/VS / 8.0 ECTS)
- 700.600 Power Line Communications (2.0h VC / 4.0 ECTS)
-
2.1-2.2 Vorlesung mit Kurs oder Vorlesung mit Seminar (
4.0h VK/VS / 8.0 ECTS)
-
Fach: Technische Ergänzung I
(Pflichtfach)
- Masterstudium Information Technology
(SKZ: 489, Version: 06W.3)
-
Fach: Technische Ergänzung II
(Pflichtfach)
-
3.1-3.3 Vorlesung mit Kurs oder Vorlesung mit Seminar (
6.0h VK/VS / 12.0 ECTS)
- 700.600 Power Line Communications (2.0h VC / 4.0 ECTS)
-
3.1-3.3 Vorlesung mit Kurs oder Vorlesung mit Seminar (
6.0h VK/VS / 12.0 ECTS)
-
Fach: Technische Ergänzung II
(Pflichtfach)
- Masterstudium Information Technology
(SKZ: 489, Version: 06W.3)
-
Fach: Research Track (Methodischer Schwerpunkt)
(Pflichtfach)
-
4.2'-4.3' Theoretisch-Methodische Lehrveranstaltung I/II (
0.0h VO/VK/VS/KU/PS / 6.0 ECTS)
- 700.600 Power Line Communications (2.0h VC / 4.0 ECTS)
-
4.2'-4.3' Theoretisch-Methodische Lehrveranstaltung I/II (
0.0h VO/VK/VS/KU/PS / 6.0 ECTS)
-
Fach: Research Track (Methodischer Schwerpunkt)
(Pflichtfach)
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