A Python package for software-defined radio
Allows to reproduce all figures from "Pruned DFT Spread FBMC: Low PAPR, Low Latency, High Spectral Efficiency", IEEE Transactions on Communications, 2018
Implementation of OFDM and OTFS transceivers on GNU Radio (software defined radio or SDR)
Implementation of "Distributed Deep Joint Source-Channel Coding over a Multiple Access Channel" paper (ICC 2023)
Implementation of "Distributed Deep Joint Source-Channel Coding with Decoder-Only Side Information" paper (ICMLCN 2024)
This is the Matlab code for the paper "Denoising Higher-Order Moments for Blind Digital Modulation Identification in Multiple-Antenna Systems" published in the IEEE Wireless Communications Letters.
Simulator for use in sharing and compatibility studies of wireless communication systems
Python code for the book 'Wireless Communications and Machine Learning' by Le Liang, Shi Jin, and Geoffrey Ye Li
This repository is accompanying the papers "Artificial Fast Fading from Reconfigurable Surfaces Enables Ultra-Reliable Communications" (SPAWC 2021), "RIS-Assisted Statistical Channel Shaping for Ultra-High Reliability" (WSA 2021), and "Reconfigurable Intelligent Surface Phase Hopping for Ultra-Reliable Communications" (TWC, DOI:10.1109/TWC.2022.…
A comparative study of different supervision levels (supervised/unsupervised/self-supervised) when training graph neural network models for link scheduling in wireless networks.
Open-source code for book "MIMO-OFDM Wireless Communications with MATLAB"
NI-USRP2921-based multi-hop relay network testbed in LabVIEW NXG.
Automating UAV-Relay Swarms
V2X Propagation Analyses at 28 GHz
This repository belongs to the paper "Reliability and Latency Analysis for Wireless Communication Systems with a Secret-Key Budget" (K.-L. Besser, R. F. Schaefer, H. V. Poor, IEEE Transactions on Communications, vol. 72, no. 2, pp. 1033-1044, Feb. 2024).
This is the code implementation for the Matrix-Inverse-Free MU-MIMO WMMSE Beamforming Algorithm.
This repository is accompanying the paper "Multi-User Frequency Assignment for Ultra-Reliable mmWave Two-Ray Channels" (WiOpt 2022, DOI:10.23919/WiOpt56218.2022.9930571)
A project for a Digital Communications Seminar I attended at university. It consists of a basic Monte Carlo simulation of the bit error rate of a DVB-T system according to standard specifications.
This is a repository to store the my implementation of MSc CSP Lab at Imperial College London
Source code of the "Over-the-air ensemble inference with model privacy" paper.
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