Veranstaltungen
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Wireless Communication
Art |
Vorlesung |
Nr. |
EMI2224 |
SWS |
4.0 |
Lerninhalt |
1. Introduction overview and classification of wireless radio communication systems, special characteristics and challenges in wireless communications
2. Characterization of mobile wireless communication channels Properties and key parameters of wireless channels, radio propagation models, link budget, stochastic models, simulation and channel sounding
3. Wireless transmission technologies Digital modulations (in particular OFMDM) and diversity schemes, equalization, multiple access and duplex schemes, MIMO systems: capacity evaluation, spatial multiplexing, space-time coding (STC), spatial modulation, beamforming (massive MIMO)
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Literatur |
- Molisch, A.: Wireless Communications. John Wiley &Sons Ltd., IEEE Press. 2011.
- Rohling, H.: OFDM: Concepts for Future Communication Systems. Springer Verlag, Berlin. 2011.
- Larsson, E.; Stoica, P.: Space-Time Block Coding for Wireless Communications. Cambridge University Press. 2008.
- Paulraj A; Nabar R.; Gore, D.: Introduction to Space-Time Wireless Communications. Cambridge University Press. 2003.
- Proakis, J.G.: Digital Communications. McGraw-Hill International. 2008.
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Labor Wireless Communications
Art |
Labor |
Nr. |
EMI2225 |
SWS |
2.0 |
Lerninhalt |
Laborübungen:
Versuch 1: Kurzstreckenkommunikation nach dem Bluetooth Standard Versuch 2: Analyse einer Kommunikationsverbindung nach dem ZigBee Standard Versuch 3: Versorgungs- und Protokollanalyse im fho-publicnet Campus-WLAN der Hochschule Offenburg
Versuch 4: Messtechnische Analyse von digitalen Trägermodulationsverfahren
Versuch 5: Echtzeitortung mit Ultra-Wideband (UWB) Funksignalen
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Literatur |
Tse, D., Fundamentals of Wireless Communication, Cambridge, Cambridge University Press, 2005
Bensky, A., Short-Range Wireless Communication: Fundamentals of RF System Design and Application, Heinemann Verlag, 2004
Rech, J., Wirelss LANs, Heise-Verlag, München, 2004
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