Leakyscatter:将无线反向散射扩展到100 GHz以上

IF 0.7 Q4 TELECOMMUNICATIONS GetMobile-Mobile Computing & Communications Review Pub Date : 2023-10-31 DOI:10.1145/3631588.3631598
Atsutse Kludze, Yasaman Ghasempour
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引用次数: 0

摘要

在过去的十年中,低功耗无线通信机制的设计和部署出现了快速的创新。其中,后向散射技术已被证明是有前途的,因为它将所需的功率预算降低了几个数量级。然而,大多数现有的后向散射架构都工作在低于6 GHz的频段,最近有几个例子是在较低的毫米波频段。与此同时,尽管功耗在100 GHz以上急剧增加,但由于其丰富的6G及以上可用带宽,频谱制度已经获得了很多关注。在本文中,我们讨论了一种首创的架构,该架构允许100 GHz以上的超宽带定向数据后向散射,同时从移动设备获取接近零的功率。
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Leakyscatter: Scaling Wireless Backscatter Above 100 GHz
The past decade has seen rapid innovations in the design and deployment of low-power wireless communication mechanisms. Among them, the backscatter technique has been shown to be promising as it reduces the required power budget by orders of magnitude. However, most existing backscatter architectures operate in the sub-6 GHz regimes with a few recent examples in the lower mmWave bands. Meanwhile, despite the fact that power consumption increases radically above 100 GHz, the spectral regime has gained a lot of attention due to its abundant available bandwidth for 6G and beyond. In this article, we discuss a first-of-its-kind architecture that allows ultra-wideband directional data backscattering above 100 GHz regime while drawing near-zero power from the mobile device.
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