Performance Evaluation of Spatial Scattering Modulation in the Indoor Environment

2022 International Symposium on Wireless Communication Systems (ISWCS) Pub Date : 2022-10-19 DOI:10.1109/ISWCS56560.2022.9940429

Jiliang Zhang, Wei Liu, A. Tennant, Weijie Qi, Jiming Chen, J. Zhang

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Abstract

In this paper, a state-of-the-art massive MIMO modulation system, spatial scattering modulation (SSM), is evaluated considering practical indoor wireless environments for the first time. Firstly, the SSM system is reviewed, which works under the narrowband sparse physical channel model and exploits beamspace domain resources to enhance spectral efficiency via analog beamforming. Secondly, to generate parameters for the narrowband sparse physical channel model in a specific indoor environment, channel prediction is performed based on the intelligent ray launching algorithm (IRLA), which has been verified via practical measurements. Therein, building structures and large objects in the indoor environment are modelled. Thirdly, an approach is proposed for characterizing ergodic average bit error probability (ABEP) to evaluate the SSM system in the indoor environment. Finally, numerical experiments are carried out, which show that channel models widely adopted in existing literature for evaluations of the SSM system are oversimplified.

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室内环境下空间散射调制性能评价

本文首次考虑实际室内无线环境，对一种最先进的大规模MIMO调制系统空间散射调制(SSM)进行了评估。首先对SSM系统进行了综述，该系统工作在窄带稀疏物理信道模型下，利用波束空间域资源，通过模拟波束形成提高频谱效率。其次，为了生成特定室内环境下窄带稀疏物理信道模型的参数，基于智能射线发射算法(IRLA)进行信道预测，并通过实际测量进行了验证。其中，建筑结构和室内环境中的大型物体被建模。第三，提出了一种表征遍历平均误码率(ABEP)的方法来评估SSM系统在室内环境下的性能。最后，进行了数值实验，结果表明，现有文献中广泛采用的通道模型用于SSM系统的评估过于简化。

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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2022 International Symposium on Wireless Communication Systems (ISWCS)

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