Download SimRISv1.0 [Zip package, 360 KB]
E. Basar, I. Yildirim, “SimRIS Channel Simulator for Reconfigurable Intelligent Surface-Empowered Communication Systems“, in Proc. IEEE Latin-American Conf. Commun. (LATINCOM 2020), Nov. 2020. [PDF]
E. Basar, I. Yildirim, F. Kilinc, “Indoor and Outdoor Physical Channel Modeling and Efficient Positioning for Reconfigurable Intelligent Surfaces in mmWave Bands“, IEEE Trans. Commun. (Early Access), Sep. 2021. [PDF]
Download SimRISv2.1 [Zip package, 376 KB]
E. Basar, I. Yildirim, “Reconfigurable Intelligent Surfaces for Future Wireless Networks: A Channel Modeling Perspective“, IEEE Wireless Commun., vol. 28, no. 3, pp. 108–114, June 2021. [PDF]
SimRIS Channel Simulator is an open-source and MATLAB-based simulator, which can be used in channel modeling of RIS-assisted MIMO systems with tunable operating frequency, terminal locations, number of RIS elements, and environments. For InH Indoor Office and UMi Street Canyon environments, channels of the RIS-empowered communication system can be produced by performing Monte Carlo simulations at 28 and 73 GHz frequencies.
License
This code package is licensed under a Creative Commons Attribution-NonCommercial-Share Alike 4.0 International License.
Citation
If you in any way use this code for research that results in publications, please cite the following:
@article{basar2020SimRIS,
Author = {E. {Basar} and I. {Yildirim}},
Booktitle = {Proc. IEEE Latin-American Conf. Commun. (LATINCOM 2020)},
Title= {{SimRIS} Channel Simulator for Reconfigurable Intelligent Surface-Empowered {mmWave} Communication Systems},
Year={2020},
month={Nov.},
Pages= {1-6},}
@article{basar2020SimRIS_2,
Author = {E. {Basar} and I. {Yildirim} and F. {Kilinc}},
journal = {IEEE Trans. Commun. (Early access)}
Title = {Indoor and Outdoor Physical Channel Modeling and Efficient Positioning for Reconfigurable Intelligent Surfaces in mm{W}ave Bands},
Year = {2021},
month={Sep.},}
@article{basar2020SimRIS_3,
Author = {E. {Basar} and I. {Yildirim}},
Journal= {IEEE Wireless Communications},
Title = {Reconfigurable Intelligent Surfaces for Future Wireless Networks: {A} Channel Modeling Perspective},
Year = {2021},
Volume={28},
Number={3},
Pages={108-114},
Doi= {10.1109/MWC.001.2000338},}