Wideband outdoor-to-indoor MIMO channel measurements at 3.5 GHz

This paper reports a measurement campaign carried out at 3.5 GHz to characterize the outdoor to indoor electromagnetic (EM) wave propagation penetration within buildings. A wideband channel sounder was used to collect the data using circular antenna arrays at both ends. The measurements are processe...

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Main Authors: Lostanlen, Y., Farhat, H., Tenoux, T., Carcelen, A., Grunfelder, G., El Zein, G.
Format: Conference Proceeding
Language:English
Subjects:
Acoustic propagation
Antenna arrays
Antenna measurements
Antennas and propagation
Broadband antennas
Electromagnetic measurements
Electromagnetic propagation
Electromagnetic scattering
MIMO
Wideband
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creator Lostanlen, Y.
Farhat, H.
Tenoux, T.
Carcelen, A.
Grunfelder, G.
El Zein, G.
description This paper reports a measurement campaign carried out at 3.5 GHz to characterize the outdoor to indoor electromagnetic (EM) wave propagation penetration within buildings. A wideband channel sounder was used to collect the data using circular antenna arrays at both ends. The measurements are processed with a high resolution algorithm extracting the dominant paths. A ray-tracing based simulation tool is used to help on interpreting the collected data. The measurements show that for Non-Line of Sight situations, the diffraction of EM waves on the window frames plays an important role in the penetration inside the building.
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source IEEE Xplore All Conference Series
subjects Acoustic propagation
Antenna arrays
Antenna measurements
Antennas and propagation
Broadband antennas
Electromagnetic measurements
Electromagnetic propagation
Electromagnetic scattering
MIMO
Wideband
title Wideband outdoor-to-indoor MIMO channel measurements at 3.5 GHz
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