Add to ORKG5G technology is the future of communication, with data speed capabilities that are much faster than current 4G technology. However, there are limiting factors of 5G that has delay the transition from 4G to 5G. One of which being the propagation capability of 5G waves through medium. Hence, this project focus on studying the characteristic of 5G wave propagation through dielectric materials that could be use for smart building in the future. In this project, iron oxide (Fe2O3) of different amount is added into mortar samples. These samples are then tested, and results are analysis to see how the addition of Fe2O3 would affect the dielectric properties of the mortar.Bachelor of Engineering (Electrical and Electronic Engineering
With the increasing use of traditional and new models of wireless communication systems, the study a...
Microwave characterization methods are effective means for evaluating dielectric properties of mater...
International audienceThis letter describes an innovative method of characterization of Building mat...
Up to now, 5G has become one of the technologies widely used in many fields. However, many aspects o...
This study presents a methodology to explore, compare and understand the electromagnetic (EM) proper...
Recently, modern wireless communication applications are extended to call high frequency bands inclu...
A large dielectric measurement cell, with 54 ml sample volume, was designed and calibrated to operat...
With the continuous development of mobile communication technology and the rise of HD video service,...
With the increasing use of traditional and new models of wireless communication systems, the study a...
Abstract This paper reports detailed propagation analyses of mm-wave indoor networks based numerical...
Buildings today are a result of development and improvement of composite systems and technology over...
Abstract:- In this work we describe a model taking into account transmission through single and mult...
This paper studies how to protect people against electromagnetic radiation inside a building. Widesp...
The relatively small wavelengths and large bandwidths associated with microwave signals make them gr...
none3noMM-wave frequency bands at around 27 and 38 GHz have been recently allocated to 5G communicat...
With the increasing use of traditional and new models of wireless communication systems, the study a...
Microwave characterization methods are effective means for evaluating dielectric properties of mater...
International audienceThis letter describes an innovative method of characterization of Building mat...
Up to now, 5G has become one of the technologies widely used in many fields. However, many aspects o...
This study presents a methodology to explore, compare and understand the electromagnetic (EM) proper...
Recently, modern wireless communication applications are extended to call high frequency bands inclu...
A large dielectric measurement cell, with 54 ml sample volume, was designed and calibrated to operat...
With the continuous development of mobile communication technology and the rise of HD video service,...
With the increasing use of traditional and new models of wireless communication systems, the study a...
Abstract This paper reports detailed propagation analyses of mm-wave indoor networks based numerical...
Buildings today are a result of development and improvement of composite systems and technology over...
Abstract:- In this work we describe a model taking into account transmission through single and mult...
This paper studies how to protect people against electromagnetic radiation inside a building. Widesp...
The relatively small wavelengths and large bandwidths associated with microwave signals make them gr...
none3noMM-wave frequency bands at around 27 and 38 GHz have been recently allocated to 5G communicat...
With the increasing use of traditional and new models of wireless communication systems, the study a...
Microwave characterization methods are effective means for evaluating dielectric properties of mater...
International audienceThis letter describes an innovative method of characterization of Building mat...