Efficient Abstractions for Implementing TGn Channel and OFDM-MIMO Links in ns-3

Proceedings of the 2020 Workshop on ns-3 Pub Date : 2020-06-06 DOI:10.1145/3389400.3389403

Sian Jin, Sumit Roy, Weihua Jiang, T. Henderson

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引用次数: 7

Abstract

Packet-level network simulators such as ns-3 require accurate physical (PHY) layer models for packet error rate (PER) for wideband transmission over fading wireless channels. To manage complexity and achieve practical runtimes, suitable link-to-system mappings can convert high fidelity PHY layer models for use by packet-level simulators. This work reports on two new contributions to the ns-3 Wi-Fi module, which presently only contains error models for Single Input Single Output (SISO), additive white Gaussian noise (AWGN) channels. To improve this, a complete implementation of a link-to-system mapping technique for IEEE 802.11 TGn fading channels is presented that involves a method for efficient generation of channel realizations within ns-3. The runtimes for the prior method suffers from scalability issues with increasing dimensionality of Multiple Input Multiple Output (MIMO) systems. We next propose a novel method to directly characterize the probability distribution of the"effective SNR" in link-to-system mapping. This approach is shown to require modest storage and not only reduces ns-3 runtime, it is also insensitive to growth of MIMO dimensionality. We describe the principles of this new method and provide details about its implementation, performance, and validation in ns-3.

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ns-3中实现TGn信道和OFDM-MIMO链路的有效抽象

像ns-3这样的包级网络模拟器需要精确的物理层模型来计算在衰落无线信道上进行宽带传输的包错误率。为了管理复杂性和实现实际运行时，合适的链路到系统映射可以转换高保真物理层模型，以供包级模拟器使用。本工作报告了ns-3 Wi-Fi模块的两个新贡献，该模块目前仅包含单输入单输出(SISO)、加性高斯白噪声(AWGN)信道的误差模型。为了改进这一点，提出了IEEE 802.11 TGn衰落信道链路到系统映射技术的完整实现，该技术涉及在ns-3内有效生成信道实现的方法。随着多输入多输出(MIMO)系统维数的增加，前一种方法的运行时存在可伸缩性问题。接下来，我们提出了一种新的方法来直接表征链路到系统映射中“有效信噪比”的概率分布。这种方法需要适度的存储，不仅减少了ns-3运行时间，而且对MIMO维数的增长不敏感。我们在ns-3中描述了这种新方法的原理，并详细介绍了其实现、性能和验证。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 2020 Workshop on ns-3

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