Amir Ashtari Gargari, Matteo Pagin, Michele Polese, Michele Zorzi
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引用次数: 2
摘要
IAB (Integrated Access and Backhaul)是部署超密集第五代和第六代(5G和6G)系统的一种灵活、低成本的解决方案,它使无线回程链路基于与接入链路相同的技术和规范。在本文中,我们考虑了混合毫米波(mmWave)和亚太赫兹链路的部署,以增加回程网络的容量,并首次提供了亚太赫兹频率对6G IAB的潜力的性能评估。为此,我们开发了一种贪婪算法,该算法将频带分配给回程链路(考虑频谱许可、共享和拥塞的限制),并生成无线网络网格。然后,我们通过开源系统级模拟器Sionna的自定义扩展来分析性能,该模拟器支持Release 17 IAB规范和高达140 GHz的信道模型。我们的研究结果表明,亚太赫兹链路的IAB可以优于仅毫米波部署,提高4×for平均用户吞吐量,并减少高达50%的中位数延迟。
6G Integrated Access and Backhaul Networks with Sub-Terahertz Links
Integrated Access and Backhaul (IAB) is a flexible and low-cost solution to deploy ultra-dense fifth and sixth generation (5G and 6G) systems, as it enables wireless backhaul links based on the same technology and specifications as for the access links. In this paper, we consider the deployment of mixed millimeter wave (mmWave) and sub-terahertz links to increase the capacity of the backhaul network, and provide the first performance evaluation of the potential of sub-terahertz frequencies for 6G IAB. To do so, we develop a greedy algorithm that allocates frequency bands to the backhaul links (considering constraints on spectrum licenses, sharing, and congestion) and generates the wireless network mesh. We then profile the performance through a custom extension of the open-source system-level simulator Sionna that supports Release 17 IAB specifications and channel models up to 140 GHz. Our results show that IAB with sub-terahertz links can outperform a mmWave-only deployment with improvements of 4×for average user throughput and a reduction of up to 50% for median latency.
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