@ARTICLE{mezzavilla2018end, 
author={M. {Mezzavilla} and M. {Zhang} and M. {Polese} and R. {Ford} and S. {Dutta} and S. {Rangan} and M. {Zorzi}}, 
journal={IEEE Communications Surveys Tutorials}, 
title="{End-to-End Simulation of 5G mmWave Networks}", 
year={2018}, 
volume={20}, 
number={3}, 
pages={2237-2263}, 
keywords={5G mobile communication;cellular radio;discrete event simulation;Long Term Evolution;millimetre wave communication;OFDM modulation;protocols;radio links;ray tracing;statistical analysis;telecommunication congestion control;wireless channels;medium access control layers;core network;ns-3 Long Term Evolution module;full-stack simulations;end-to-end connectivity;custom mmWave stack;custom congestion control algorithms;mmWave channel;end-to-end simulation;5G mmWave networks;low latency wireless links;millimeter wave technology;central role;mmWave physical layer;protocol stack;discrete-event network simulation;cross-layer research;full-stack mmWave module;open-source ns-3 simulator;physical access control layers;orthogonal frequency division multiplexing;statistical channel models;ray tracing data;5th generation cellular systems;5G mobile communication;Protocols;Antenna arrays;Tutorials;Long Term Evolution;3GPP;Millimeter wave technology;mmWave;5G;cellular;channel;propagation;PHY;MAC;multi-connectivity;handover;simulation;ns–3}, 
doi={10.1109/COMST.2018.2828880}, 
ISSN={2373-745X}, 
month={thirdquarter},}