Bokang Francis Maphathe, P. Thakur, G. Singh, Hashimu E. Iddi
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引用次数: 2
摘要
本文重点介绍了多媒体纳米物联网(IoMNT)网络中太赫兹信道建模的前景。讨论了一种针对体中心网络的调制技术。在人体皮肤组织的太赫兹多层建模通道中建立了一个与真实太赫兹天线的类比。因此,对太赫兹频段信号如何在皮肤生物材料内相互作用和传输的研究。采集数据的人体皮肤模型分为表皮、真皮层、血液和皮下四层,各层深度在正常人体值之间变化。从文献中可以看出,频率和内容对路径失效有很大的影响。因此,估计的路径损耗可能会有很大差异,但对于深度为0.21 mm, 1.23 mm, 1.38 mm和3.76 mm的人体皮肤模型,终端距离0.5-1.5太赫兹的频率导致的路径损耗估计约为250-350 dB。
The Terahertz Channel Modeling in Internet of Multimedia Design In-Body Antenna
In this paper, the authors have emphasized on the perspectives of the Terahertz channel modeling in Internet of multimedia nano things (IoMNT) networks. A modulation technique targeting body-centric network is discussed. An analogy of a real Terahertz antenna is developed within a terahertz multi-layer modelling channel for a human skin tissue. As a result, the investigation of how signals at THz frequency band interact and transmit within the skin biomaterial. The human skin model used to collect data was selected to have four layers: epidermis, dermis, blood, and hypodermis, with the depth of the layers varying between normal human body values. It is revealed from the literature that the frequency and content have a substantial impact on path failure. The estimated path loss could thus differ considerably, but for a human skin model with depths of 0.21 mm, 1.23 mm, 1.38 mm, and 3.76 mm, the frequencies of 0.5-1.5 THz at the end distance resulted in a path loss estimated about 250-350 dB.
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