On the Reproduction of Real Wireless Channel Occupancy in ns-3
Author:
Affiliation:
1. INESC TEC and Faculdade de Engenharia, Universidade do Porto, Porto, Portugal
Funder
Fundação para a Ciência e a Tecnologia
Publisher
ACM
Link
https://dl.acm.org/doi/pdf/10.1145/3389400.3393754
Reference10 articles.
1. K. Brun P. Gomes P. Minet and T. Watteyne. 2018. Moving Beyond Testbeds? Lessons (We) Learned About Connectivity. IEEE Pervasive Computing 17 (12 2018). https://doi.org/10.1109/MPRV.2018.2873847 K. Brun P. Gomes P. Minet and T. Watteyne. 2018. Moving Beyond Testbeds? Lessons (We) Learned About Connectivity. IEEE Pervasive Computing 17 (12 2018). https://doi.org/10.1109/MPRV.2018.2873847
2. BLUECOM+: Cost-effective broadband communications at remote ocean areas
3. R. Cruz. 2020. Source Code for the Channel Occupancy Model - use in ns-3.27. http://telecom.inesctec.pt/~hfontes/wns3_channel_occupancy_2020.zip R. Cruz. 2020. Source Code for the Channel Occupancy Model - use in ns-3.27. http://telecom.inesctec.pt/~hfontes/wns3_channel_occupancy_2020.zip
4. Fed4FIRE+. 2018. Fed4FIRE+ - The Largest Federation of Testbeds in Europe. https://www.fed4fire.eu/ Fed4FIRE+. 2018. Fed4FIRE+ - The Largest Federation of Testbeds in Europe. https://www.fed4fire.eu/
5. H. Fontes. 2018. Source Code for the TraceBasedPropagationModel - Use in ns-3.27. http://telecom.inesctec.pt/~hfontes/trace_based_propagation_loss_model2018.zip H. Fontes. 2018. Source Code for the TraceBasedPropagationModel - Use in ns-3.27. http://telecom.inesctec.pt/~hfontes/trace_based_propagation_loss_model2018.zip
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