“Pruned DFT Spread FBMC: Low PAPR, Low Latency, High Spectral Efficiency“, Ronald Nissel, Markus Rupp
IEEE Transactions on Communications, 2018, to appear.
| PYTHON Code (limited features): Pruned DFT Spread FBMC |
“Filter Bank Multicarrier Modulation Schemes for Future Mobile Communications“, Ronald Nissel, Stefan Schwarz, Markus Rupp
IEEE Journal on Selected Areas in Communications, vol. 35, no. 8, pp. 1768–1782, August 2017.
“OFDM and FBMC-OQAM in Doubly-Selective Channels: Calculating the Bit Error Probability“, Ronald Nissel, Markus Rupp
IEEE Communications Letters, vol. 21, no. 6, pp. 1297–1300, March 2017.
“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.
“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. |
“Asymptotic equivalent analysis of the LMS algorithm under linearly filtered processes“, Markus Rupp
EURASIP Journal of Advances in Signal Processing, 2016.
This package provides all matlab files as well as additional material to reproduce the figures and examples of the above mentioned paper.
Please carefully read the license conditions and the download instructions on this page. If you are experiencing problems please contact markus.rupp@tuwien.ac.at (Markus Rupp).
LTE-A Downlink System-Level Simulator
The LTE-A Downlink System-Level Simulator allows you to perform network-level simulations of 3GPP Long Term Evolution-Advanced networks. It abstracts the Physical layer for lower complexity and is based on the experience built on the LTE Link Level simulator. It is freely available in a package containing Matlab source files as well as some MEX-functions (for which the source code is also provided).
Please carefully read the license conditions and the download instructions on this page. If you are experiencing problems with downloading the simulator please contact sim-download@nt.tuwien.ac.at. For technical questions, please consider using our online-forum.
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 sim-download@nt.tuwien.ac.at. For technical questions, please consider using our online-forum.
LTE-A Downlink Link-Level Simulator
This LTE-A Downlink Physical Layer simulator implements the physical layer of the 3GPP Long Term Evolution-Advanced standard. It is freely available in a package containing Matlab source files as well as some MEX-functions (for which the source code is also provided).
Please carefully read the license conditions and the download instructions on this page. If you are experiencing problems with downloading the simulator please contact sim-download@nt.tuwien.ac.at. For technical questions, please consider using our online-forum.
LTE-A Uplink Link-Level Simulator
This LTE-A Uplink Physical Layer simulator implements the physical layer of the 3GPP Long Term Evolution-Advanced standard. It is freely available in a package containing Matlab source files as well as some MEX-functions (for which the source code is also provided).
Please carefully read the license conditions and the download instructions on this page. If you are experiencing problems with downloading the simulator please contact sim-download@nt.tuwien.ac.at. For technical questions, please consider using our online-forum.
“A Tensor LMS Algorithm“, Markus Rupp, Stefan Schwarz
40th International Conference on Acoustics, Speech, and Signal Processing (ICASSP’15), Brisbane, Australia, April 19-24, 2015
This package provides all matlab files as well as additional material to reproduce the figures and examples of the above mentioned paper.
Please carefully read the license conditions and the download instructions on this page. If you are experiencing problems please contact markus.rupp@tuwien.ac.att (Markus Rupp).
Vehicular Link Performance: From Real-World Experiments to Reliability Models and Performance Analysis, V. Shivaldova, A. Winkelbauer, C.F. Mecklenbräuker
presented at the 8th IC1004 MC and Scientific Meeting
This package provides MATLAB files containing the complete set of probabilities needed to generate realistic infrastructure-to-vehicle packet-error traces using a range-dependent modified Gilbert model. The model parameters were estimated from real-world measurements carried out on the Austrian highway S1 during September 2010, within the ROADSAFE project. The performance of V2I communication was analyzed using 12 different setups, including three combinations of data rates and packet lengths, four RSU antenna types, two RSU mounting positions, and two driving directions. Using these MATLAB files, all values and figures presented in the above paper can be reproduced. Generated packet-error traces can be used as an alternative to commonly used physical layer abstraction in system-level simulation tools.
Please carefully read the license conditions and be aware that any publication using the generated data traces should reference the publication mentioned above. If you are experiencing problems please contact christoph.mecklenbraeuker@tuwien.ac.at (Christoph Mecklenbräuker).
“Robust Design of Adaptive Equalizers“, M.Rupp
IEEE Transactions on Signal Processing, vol. 60, no. 4, pp. 1612 – 1626, April 2012
This package provides all matlab files as well as additional material to reproduce the figures and examples of the above mentioned paper.
Please carefully read the license conditions and the download instructions on this page. If you are experiencing problems please contact markus.rupp@tuwien.ac.at (Markus Rupp).
“Pseudo Affine Projection Algorithms Revisited: Robustness and Stability Analysis“, M. Rupp
IEEE Transactions on Signal Processing, vol. 59, no. 5, pp. 2017 – 2023, May 2011
This package provides all matlab files as well as additional material to reproduce the figures and examples of the above mentioned paper.
Please carefully read the license conditions and the download instructions on this page. If you are experiencing problems please contact markus.rupp@tuwien.ac.at (Markus Rupp).
“Adaptive Filters: Stable but not convergent“, Markus Rupp
EURASIP Journal of Advanced Signal Processing, 2015
This package provides all matlab files as well as additional material to reproduce the figures and examples of the above mentioned paper.
Please carefully read the license conditions and the download instructions on this page. If you are experiencing problems please contact markus.rupp@tuwien.ac.at (Markus Rupp).
“A Circular Interference Model for Heterogeneous Cellular Networks“, Martin Taranetz, Markus Rupp
IEEE Transactions on Wireless Communications, 2015
This Mathematica notebook contains an implementation of Theorem 3.1.
“On gradient type adaptive filters with non-symmetric matrix step-sizes“, M.Rupp
in Proc. of ICASSP, Prague, May 2011
This package provides all matlab files as well as additional material to reproduce the figures and examples of the above mentioned paper.
Please carefully read the license conditions and the download instructions on this page. If you are experiencing problems please contact markus.rupp@tuwien.ac.at (Markus Rupp).
“Convergence Properties of Adaptive Equalizer Algorithms“, M. Rupp
IEEE Transaction on Signal Processing, vol. 59, no. 6, pp. 2562 – 2574, June 2011
This package provides all matlab files as well as additional material to reproduce the figures and examples of the above mentioned paper.
Please carefully read the license conditions and the download instructions on this page. If you are experiencing problems please contact markus.rupp@tuwien.ac.at (Markus Rupp).
“A Mathematical Framework to Evaluate Flexible Associations of Outdoor Users in Urban Two-Tier Cellular Networks”, Mehdi Fereydooni, Martin Taranetz, Markus Rupp
This package provides all Mathematica and Matlab files to reproduce the simulation results of the above mentioned paper.
Simple and Accurate GPS synchronization for PC
This package provides tutorials and source code for setting up a GPS time synchronization on a normal PC. It comes with two features, synchronization with NTP software (tutorial and driver module for linux) and rapidly converging synchronization without NTP (tutorial and synchronization software for linux). Accuracy below 10 microseconds can be achieved with both solutions. An evaluation of the accuracy has been presented at ISPCS’11.
Download Page
HSUPA One-Way Delay Data Set
This package provides a set of HSUPA one-way delay measurement data, obtained from an operational HSPA network. Matlab source files for evaluation are contained. The corresponding evaluation has been presented at PAM’11
Downloads with Discontinued Support
CUDA Sphere Decoding
This simulation package includes source files of the fixed sphere decoder and a soft sphere decoder implemented in C and CUDA. The CUDA implementation allows to carry out the sphere decoding on NVIDA graphic cards.
Please carefully read the license conditions and the download instructions on this page. If you are experiencing problems with using the source files, we are sorry but we cannot help you. For problems with the download, please contact sim-download@nt.tuwien.ac.at. Note: The technical support for CUDA Sphere Decoding is discontinued.
WiMAX Simulator
This WiMAX simulator implements the OFDM physical layer of IEEE 802.16-2004. It is freely available in a package containing Matlab source files as well as some compiled mex functions (for which the source code will not be publicly available).
Please carefully read the license conditions and the download instructions on this page. Unfortunately we cannot support the simulator any longer. If you are experiencing problems with using the simulator, we are sorry but we cannot help you. For problems with the download, please contact sim-download@nt.tuwien.ac.at. Note: The technical support for the IEEE 802.16-2004 WiMAX Simulator is discontinued.