The Vienna Cellular Communications Simulators – VCCS
People involved in the implementation of the 5G simulators (so far): Fjolla Ademaj, Thomas Dittrich, Agnes Fastenbauer, Markus Gasser, Ljiljana Marijanovic, Mariam Mussbah, Martin Müller, Armand Nabavi, Lukas Nagel, Ronald Nissel, Stefan Pratschner, Blanca Ramos Elbal, Stefan Schwarz, Bashar Tahir
“Filter Bank Multicarrier Modulation Schemes for Future Mobile Communications“, Ronald Nissel, Stefan Schwarz, Markus Rupp IEEE Journal on Selected Areas in Communications, 2017, accepted for publications.
MATLAB Code: FBMC
“OFDM and FBMC-OQAM in Doubly-Selective Channels: Calculating the Bit Error Probability“, Ronald Nissel, Markus Rupp IEEE Communications Letters, 2017, accepted for publications.
MATLAB Code: Bit Error Probability in OFDM and FBMC
“Enabling Low-Complexity MIMO in FBMC-OQAM“, Ronald Nissel, Markus Rupp IEEE Globecom Workshops (GC Wkshps), Washington, USA, December 2016. “Block Frequency Spreading: A Method for Low-Complexity MIMO in FBMC-OQAM“, Ronald Nissel, Jiri Blumenstein, Markus Rupp IEEE International Workshop on Signal Processing Advances in Wireless Communications (SPAWC 2017), Hokkaido, Japan, July 2017.
MATLAB Code: MIMO in FBMC
“On Pilot-Symbol Aided Channel Estimation In FBMC-OQAM“, Ronald Nissel, Markus Rupp IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP), Shanghai, China, March 2016.
This package provides all matlab files as well as additional material to reproduce the figures and examples of the above mentioned paper.
Matlab Code: Channel Estimation in FBMC
3GPP 3D Channel Model Standalone MATLAB Code
This MATLAB package provides an implementation of the 3GPP 3D channel model according to TR 36.873.
Please carefully read the license conditions and the download instructions on this page. If you are experiencing problems with downloading the simulator please contact email@example.com. For technical questions, please consider using our online-forum.
3GPP 3D Channel Model MATLAB Package