ns-3网络模拟器的5G毫米波模块

Proceedings of the 18th ACM International Conference on Modeling, Analysis and Simulation of Wireless and Mobile Systems Pub Date : 2015-06-29 DOI:10.1145/2811587.2811619

M. Mezzavilla, S. Dutta, M. Zhang, M. Akdeniz, S. Rangan

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引用次数: 88

摘要

不断增长的数据需求，以及频谱的稀缺性，促使人们迫切转向开发新的频段。这就是将毫米波确定为5G蜂窝网络的关键颠覆性使能技术的主要原因。事实上，利用新的波段意味着面临新的挑战;在这种情况下，它们主要与无线电传播有关，无线电传播距离较短，对障碍物更敏感。因此，在设计毫米波蜂窝系统时需要考虑的关键方面是方向性和链路间歇性。网络级结果的缺乏激励了这项工作，其目的是提供基于网络模拟器ns-3的第一种开源毫米波框架。这项工作的主要重点是对毫米波系统的可定制信道、物理层(PHY)和介质访问控制层(MAC)进行建模。详细讨论了模型的总体设计和体系结构。最后，通过一个简单场景的仿真验证了所提框架的有效性。

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5G MmWave Module for the ns-3 Network Simulator

The increasing demand of data, along with the spectrum scarcity, are motivating a urgent shift towards exploiting new bands. This is the main reason behind identifying mmWaves as the key disruptive enabling technology for 5G cellular networks. Indeed, utilizing new bands means facing new challenges; in this context, they are mainly related to the radio propagation, which is shorter in range and more sensitive to obstacles. The resulting key aspects that need to be taken into account when designing mmWave cellular systems are directionality and link intermittency. The lack of network level results motivated this work, which aims at providing the first of a kind open source mmWave framework, based on the network simulator ns-3. The main focus of this work is the modeling of customizable channel, physical (PHY) and medium access control (MAC) layers for mmWave systems. The overall design and architecture of the model are discussed in details. Finally, the validity of our proposed framework is corroborated through the simulation of a simple scenario.

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Proceedings of the 18th ACM International Conference on Modeling, Analysis and Simulation of Wireless and Mobile Systems

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