用于太赫兹信道建模和生成的基于变压器的生成式对抗网络。

Zhengdong Hu, Yuanbo Li, Chong Han
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摘要

太赫兹通信被认为是第六代及以后无线系统的一项前景广阔的技术,可支持每秒太比特(Tbps)数据速率的无线链路。作为设计太赫兹通信的基础,信道建模和特性分析对于仔细研究这一频谱的潜力至关重要。然而,目前太赫兹频段的信道建模严重依赖于耗时且成本高昂的测量。在此,我们提出了一种基于变压器的生成式对抗网络,以缓解太赫兹信道建模中的这一问题。具体来说,作为一个基本构件,生成式对抗网络被用来生成信道参数。为了提高精确度,在生成式对抗网络中加入了具有自我注意机制的变压器结构。与地面实况测量相比,生成式对抗网络仍然会产生误差,因此设计了一种迁移学习方法来解决生成式网络与测量之间的不匹配问题。所提出的方法可以实现高精度的信道建模,同时只需要相当有限的测量量,这对当前的信道建模技术是一个很好的补充。
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Transfer learning enabled transformer-based generative adversarial networks for modeling and generating terahertz channels
Terahertz communications are envisioned as a promising technology for the sixth generation and beyond wireless systems, which can support wireless links with Terabits-per-second (Tbps) data rates. As the foundation of designing terahertz communications, channel modeling and characterization are crucial to scrutinize the potential of this spectrum. However, current channel modeling in the terahertz band heavily relies on time-consuming and costly measurements. Here, we propose a transfer learning enabled transformer based generative adversarial network to mitigate this problem in terahertz channel modeling. Specifically, as a fundamental building block, a generative adversarial network is exploited to generate channel parameters. To improve the accuracy, a transformer structure with a self-attention mechanism is incorporated in generative adversarial network. Still incurring errors compared with ground-truth measurement, a transfer learning is designed to solve the mismatch between the formulated network and measurement. The proposed method can achieve high accuracy in channel modeling, while requiring only rather limited amount of measurement, which is a promising complement of current channel modeling techniques. Zhengdong Hu and colleagues propose Transfer learning and Transformers in a Generative Adversarial Network for channel modelling in the Terahertz band. They reduce the required number of measurements while maintaining the accuracy.
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