Add to ORKGIn this paper, we present millimeter-wave (mmWave) penetration loss measurements and analysis at E-bands—73 GHz and 81 GHz. Penetration loss was measured for common building materials such as clear glass, metal, tinted glass, wood, and drywall on the campus of Boise State University in the city of Boise. A horn antenna with a gain of 24 dBi was used at the transmitter and receiver at both bands, and both antennas were boresight-aligned with respect to the test material. A total of twelve locations were selected to test five materials. We tested two indoor materials (clear glass and wood) in at least two locations to determine the effect of penetration loss of materials in similar compositions. The average penetration loss and standard devia...
The millimeter-wave (mmWave) is expected to deliver a huge bandwidth to address the future demands f...
As the throughput requirements for wireless communication links keep rising, characterization of sub...
building penetration, path loss This paper contains measured data and empirical models for 5.85 GHz ...
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...
Future cellular systems will make use of millimeter-wave (mm-wave) frequency bands. Many users in th...
In mobile communication systems, it is important to clarify the outdoor-to-indoor propagation loss (...
The abundant spectrum available at mmWave band can provide high capacity, high throughput, and low l...
Exploitation of the millimetre-wave (mmWave) bands at 28 GHz and above is a key part of the fifth ge...
The insertion loss of different materials is measured at 2.4, 3.3 and 5.5 GHz bands. Directive ante...
We investigated the impact of window penetration loss (WinPL) on the frequency dependence of buildin...
The wide spectrum available at millimeter-wave (mmWave) bands promises very high data rates and has ...
Three methods suitable for on-site window and wall penetration loss measurements are presented and c...
Measurements in the range of 10-20GHz, 22- 30GHz and 50-67GHz are presented in this paper that show ...
The millimeter-wave (mmWave) frequency is considered a viable radio wave band for fifth-generation (...
The millimeter-wave (mmWave) is expected to deliver a huge bandwidth to address the future demands f...
As the throughput requirements for wireless communication links keep rising, characterization of sub...
building penetration, path loss This paper contains measured data and empirical models for 5.85 GHz ...
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...
Future cellular systems will make use of millimeter-wave (mm-wave) frequency bands. Many users in th...
In mobile communication systems, it is important to clarify the outdoor-to-indoor propagation loss (...
The abundant spectrum available at mmWave band can provide high capacity, high throughput, and low l...
Exploitation of the millimetre-wave (mmWave) bands at 28 GHz and above is a key part of the fifth ge...
The insertion loss of different materials is measured at 2.4, 3.3 and 5.5 GHz bands. Directive ante...
We investigated the impact of window penetration loss (WinPL) on the frequency dependence of buildin...
The wide spectrum available at millimeter-wave (mmWave) bands promises very high data rates and has ...
Three methods suitable for on-site window and wall penetration loss measurements are presented and c...
Measurements in the range of 10-20GHz, 22- 30GHz and 50-67GHz are presented in this paper that show ...
The millimeter-wave (mmWave) frequency is considered a viable radio wave band for fifth-generation (...
The millimeter-wave (mmWave) is expected to deliver a huge bandwidth to address the future demands f...
As the throughput requirements for wireless communication links keep rising, characterization of sub...
building penetration, path loss This paper contains measured data and empirical models for 5.85 GHz ...