The IEEE 802.11ay is an emerging system that will become a full member of the big family of the IEEE 802.11 standards in the near future. Compared to its predecessor IEEE 802.11ad, it promises to offer higher system flexibility and more reliable wireless communication links for short distances in millimeter-wave bands. This paper provides a simulation-based performance study of IEEE 802.11ay single carrier-physical (SC-PHY) layer for different transmission modes and scenarios. For this purpose, a MATLAB-based IEEE 802.11ay SC-PHY simulator is introduced. Next, 60 GHz indoor channel models based on extensive real-world indoor measurements, conducted by ourselves, are created and used to analyze the performance of IEEE 802.1ay SC-PHY in terms of Bit Error Ratio and data throughput. Both the simulator and channel models are available online. A phase noise behavioral model to emulate channel impairments is also considered and used in this work. The obtained results show how the IEEE 802.11ay SC-PHY system employing different transmission modes is influenced under various channel conditions.

IEEE 802.11ay 是一个新兴系统，将在不久的将来成为 IEEE 802.11 标准大家族的正式成员。与其前身 IEEE 802.11ad 相比，它承诺为毫米波段的短距离提供更高的系统灵活性和更可靠的无线通信链路。本文针对不同传输模式和场景提供了基于仿真的 IEEE 802.11ay 单载波物理 (SC-PHY) 层性能研究。为此，引入了基于 MATLAB 的 IEEE 802.11ay SC-PHY 模拟器。接下来，我们创建了基于我们自己进行的大量真实室内测量的 60 GHz 室内信道模型，并用于分析 IEEE 802.1ay SC-PHY 在误码率和数据吞吐量方面的性能。模拟器和通道模型都可以在线获得。在这项工作中还考虑并使用了模拟信道损伤的相位噪声行为模型。获得的结果显示了采用不同传输模式的 IEEE 802.11ay SC-PHY 系统在各种信道条件下是如何受到影响的。