Magnetic Field Above Stratified Earth in Magnetic Loop Through-the-Earth Wireless Communications [0.03%]
分层地球中的磁 LOOP 通 地无线通信的磁场研究
Lincan Yan,Miguel Reyes
Lincan Yan
Evaluation of the very-low frequency, ultralow frequency, or extremely low frequency magnetic field (H-field) due to a buried or on-surface magnetic dipole or antenna is important for applications such as geophysical exploration and through...
Impact of Common Reflecting and Absorbing Building Materials on THz Multipath Channels [0.03%]
常见建筑材料对太赫兹多径信道的影响研究
Jorge Gomez-Ponce,Naveed A Abbasi,Revanth Kondaveti et al.
Jorge Gomez-Ponce et al.
THz band communication has the potential to meet the high data rate demands of many current and future applications. However, before these networks are realized, extensive channel measurements are needed in order to characterize the wireles...
Mathematical modeling and measurement of electric fields of electrode-based through-the-earth (TTE) communication [0.03%]
基于电极的透地通信(TTC)电场的数学建模与测量
Lincan Yan,Chenming Zhou,Miguel Reyes et al.
Lincan Yan et al.
There are two types of through-the-earth (TTE) wireless communication in the mining industry: magnetic loop TTE and electrode-based (or linear) TTE. While the magnetic loop systems send signal through magnetic fields, the transmitter of an ...
Simon L Cotton,Raffaele D&#x;Errico,Claude Oestges
Simon L Cotton
The human body is an extremely challenging environment for the operation of wireless communications systems, not least because of the complex antenna-body electromagnetic interaction effects which can occur. This is further compounded by th...