Experimental validation of adverse weather effects on a 240 GHz multi-gigabit wireless link

The influence of hydrometeors on a MMIC-based wireless data transmission at 240GHz carrier frequency was experimentally evaluated in a climatic wind tunnel over a distance of 90 m. Successful transmissions of up to 24 Gbit/s QPSK modulated signals through heavy rain at 43 mm/h and dense fog at 3 g/m...

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Main Authors: Boes, F., Antes, J., Mahler, T., Lewark, U., Meier, D., Messinger, T., Henneberger, R., Tessmann, A., Zwick, T., Kallfass, I.
Format: Conference Proceeding
Language:English
Subjects:
Bit error rate
data transmission
hydrometeors
millimeter-wave communication
millimeter-wave monolithic integrated circuit (MMIC)
Rain
weather influences
wireless communication
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creator Boes, F.
Antes, J.
Mahler, T.
Lewark, U.
Meier, D.
Messinger, T.
Henneberger, R.
Tessmann, A.
Zwick, T.
Kallfass, I.
description The influence of hydrometeors on a MMIC-based wireless data transmission at 240GHz carrier frequency was experimentally evaluated in a climatic wind tunnel over a distance of 90 m. Successful transmissions of up to 24 Gbit/s QPSK modulated signals through heavy rain at 43 mm/h and dense fog at 3 g/m 3 is achieved. The climatic impact is evaluated in terms of EVM. Reducing the bandwidth makes a transmission still possible with a BER
doi_str_mv 10.1109/MWSYM.2014.6848416
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subjects Bit error rate
data transmission
hydrometeors
millimeter-wave communication
millimeter-wave monolithic integrated circuit (MMIC)
Rain
weather influences
wireless communication
title Experimental validation of adverse weather effects on a 240 GHz multi-gigabit wireless link
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