With the rapid development of mobile internet and the increasing popularity of intelligent mobile terminals, the continuous high-speed growth of 5G mobile video traffic will place higher demands on the carrying capacity and transmission service quality of 5G backhaul networks. How to organically integrate diverse and coexisting wireless communication technologies (such as Wi-Fi and Bluetooth) in a 5G environment, better aggregate various wireless network bandwidth resources, and effectively improve video data transmission performance has become a current research hotspot in the international academic community. Meanwhile, the multipath QUIC protocol has advantages such as the ability to utilize multiple link bandwidth resources, robust fault tolerance for connections, and high reliability. Therefore, this paper leverages the ns-3 network simulator, the most widely used in the global network simulation field, to provide a framework for implementing Multipath QUIC transmission in a Wi-Fi environment, assisting experts and scholars worldwide in the simulation deployment and optimization of the Multipath QUIC protocol.

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Research on MPQUIC Simulation Technology in ns-3 Wireless Network

  • Ming Jiang,
  • Haopeng Zhang,
  • Jinquan Nie,
  • Yuehua Fan

摘要

With the rapid development of mobile internet and the increasing popularity of intelligent mobile terminals, the continuous high-speed growth of 5G mobile video traffic will place higher demands on the carrying capacity and transmission service quality of 5G backhaul networks. How to organically integrate diverse and coexisting wireless communication technologies (such as Wi-Fi and Bluetooth) in a 5G environment, better aggregate various wireless network bandwidth resources, and effectively improve video data transmission performance has become a current research hotspot in the international academic community. Meanwhile, the multipath QUIC protocol has advantages such as the ability to utilize multiple link bandwidth resources, robust fault tolerance for connections, and high reliability. Therefore, this paper leverages the ns-3 network simulator, the most widely used in the global network simulation field, to provide a framework for implementing Multipath QUIC transmission in a Wi-Fi environment, assisting experts and scholars worldwide in the simulation deployment and optimization of the Multipath QUIC protocol.