s波段5G通信可穿戴软网格阵列天线

2020 XXXIIIrd General Assembly and Scientific Symposium of the International Union of Radio Science Pub Date : 2020-08-01 DOI:10.23919/URSIGASS49373.2020.9232249

J. Hughes, C. Occhiuzzi, J. Batchelor, G. Marrocco

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引用次数: 0

摘要

无电池通信的可穿戴天线和表皮天线与新兴的5G框架的潜在融合，可能会促进对生物物理参数的超快和无延迟监测。3.6 GHz表皮天线已经被证明可能提供与传统UHF RFID链路相同的性能，但频带要大得多。通过使用可穿戴电网阵列可以实现更好的性能，可以在无电池模式下将读取距离增加到6米，同时保持较低的馈电和制造复杂性。在这里，研究了皮肤上网格阵列的最佳性能，并制造了第一个原型，并在人体幻影上进行了测试。

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Wearable Soft Grid Array Antenna for S-band 5G Communication

Potential convergence of wearable and epidermal antennas for battery-less communication with the emerging 5G framework, may boost the ultrafast and delay-free monitoring of biophysical parameters. 3.6 GHz epidermal antennas have already been demonstrated to possibly provide the same performance of a conventional UHF RFID link but with much larger band. Even better performance can be achieved by using wearable grid-arrays that may increase the read distance up to 6m in battery-less mode while keeping the feeding and fabrication complexity low. Here, the optimal performance of on-skin grid-arrays are investigated and a first prototype is manufactured and tested onto a body phantom.

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2020 XXXIIIrd General Assembly and Scientific Symposium of the International Union of Radio Science

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