Wireless power distributions in multi-cavity systems at high frequencies

Abstract: The next generations of wireless networks will work in frequency bands ranging from sub-6 GHz up to 100 GHz. Radio signal propagation differs here in several critical aspects from the behaviour in the microwave frequencies currently used. With wavelengths in the millimetre range (mmWave), both penetration loss and free-space path loss increase, while specular reflection will dominate over diffraction as an important propagation channel. Thus, current channel model protocols used for the generation of mobile ne… Show more

“…In 'Wireless power distributions in multi-cavity systems at high frequencies', Adnan et al [1] present a comparison between ray-tracing (RT)-based channel modelling and mesh-based energy flow methods. The authors of this paper discuss the challenges facing the prediction of propagation conditions of emerging wireless technologies.…”

Innovative and emerging communications concepts and technologies

“…In 'Wireless power distributions in multi-cavity systems at high frequencies', Adnan et al [1] present a comparison between ray-tracing (RT)-based channel modelling and mesh-based energy flow methods. The authors of this paper discuss the challenges facing the prediction of propagation conditions of emerging wireless technologies.…”

Innovative and emerging communications concepts and technologies

Deviations From the Random Plane Wave Field Distribution in Electromagnetic Enclosures