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wireless-communications

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"UavNetSim-v1" can be used for designing and testing routing protocols (e.g., DSDV, AODV), MAC protocols, UAV 3D path planning (e.g., A*, Dijkstra) and topology control algorithms (e.g., virtual force). Additionally, it models the wireless channel, mobility, and energy consumption, and provides accurate performance analysis and visualization.

  • Updated Jul 13, 2025
  • Python

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.…

  • Updated Nov 15, 2022
  • Python

A comparative study of different supervision levels (supervised/unsupervised/self-supervised) when training graph neural network models for link scheduling in wireless networks.

  • Updated Oct 6, 2021
  • Jupyter Notebook

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).

  • Updated Nov 9, 2024
  • Python

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