Future cellular systems will make use of millimeter-wave (mm-wave) frequency bands. Many users in these bands are located indoors, i.e., inside buildings, homes, and offices. The typical building material attenuations in these high-frequency ranges are of interest for link budget calculations. In this article, we report on a collaborative measurement campaign to find the attenuation of several typical building materials in three potential mm-wave bands (28, 73, and 91 GHz). Using directional antennas, we took multiple measurements at multiple locations using narrow-band and wideband signals and averaged out residual small-scale fading effects. The materials include clear glass, drywall (plasterboard), plywood, acoustic ceiling tile, and cin...
As the throughput requirements for wireless communication links keep rising, characterization of sub...
By the 1960's, European countries faced a massive housing shortage due to changes in social structur...
Wireless access into and out of buildings is a fundamental requirement of current and future success...
In this paper, we present millimeter-wave (mmWave) penetration loss measurements and analysis at E-b...
This paper presents indoor penetration and reflection characteristics of common building materials a...
Energy-efficient buildings are gaining momentum in order to comply with the new energy regulations. ...
Exploitation of the millimetre-wave (mmWave) bands at 28 GHz and above is a key part of the fifth ge...
We measure the average electromagnetic absorption cross section of building materials in the millime...
The sixth-generation wireless communication research activities were launched worldwide. A tendency ...
Wireless backhauling at 70 GHz maybe a viable option for 5G small cells densification. Whether indoo...
Abstract This paper reports detailed propagation analyses of mm-wave indoor networks based numerical...
none3noMM-wave frequency bands at around 27 and 38 GHz have been recently allocated to 5G communicat...
The electromagnetic wave (EM) attenuation by building walls is experimentally investigated, focusing...
As the throughput requirements for wireless communication links keep rising, characterization of sub...
By the 1960's, European countries faced a massive housing shortage due to changes in social structur...
As the throughput requirements for wireless communication links keep rising, characterization of sub...
By the 1960's, European countries faced a massive housing shortage due to changes in social structur...
Wireless access into and out of buildings is a fundamental requirement of current and future success...
In this paper, we present millimeter-wave (mmWave) penetration loss measurements and analysis at E-b...
This paper presents indoor penetration and reflection characteristics of common building materials a...
Energy-efficient buildings are gaining momentum in order to comply with the new energy regulations. ...
Exploitation of the millimetre-wave (mmWave) bands at 28 GHz and above is a key part of the fifth ge...
We measure the average electromagnetic absorption cross section of building materials in the millime...
The sixth-generation wireless communication research activities were launched worldwide. A tendency ...
Wireless backhauling at 70 GHz maybe a viable option for 5G small cells densification. Whether indoo...
Abstract This paper reports detailed propagation analyses of mm-wave indoor networks based numerical...
none3noMM-wave frequency bands at around 27 and 38 GHz have been recently allocated to 5G communicat...
The electromagnetic wave (EM) attenuation by building walls is experimentally investigated, focusing...
As the throughput requirements for wireless communication links keep rising, characterization of sub...
By the 1960's, European countries faced a massive housing shortage due to changes in social structur...
As the throughput requirements for wireless communication links keep rising, characterization of sub...
By the 1960's, European countries faced a massive housing shortage due to changes in social structur...
Wireless access into and out of buildings is a fundamental requirement of current and future success...
Add to ORKG