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Modeling the Effects of Gaseous Absorption and Cloud Attenuation for V-band using Deep Learning | IEEE Conference Publication | IEEE Xplore

Modeling the Effects of Gaseous Absorption and Cloud Attenuation for V-band using Deep Learning


Abstract:

A deep neural network is proposed to study the attenuating effects of the Earth's atmosphere on the W/V-bands of the millimeter wavelength portion of the spectrum. Valida...Show More

Abstract:

A deep neural network is proposed to study the attenuating effects of the Earth's atmosphere on the W/V-bands of the millimeter wavelength portion of the spectrum. Validation of atmospheric propagation models in the W/V-bands has become an increasingly important subject of communications research, but presents significant hurdles when testing these models due to the great variability in the atmospheric parameters that influence propagation attenuation. The effects of molecular gas resonances and hydrosols become very pronounced due to the short wavelength in these bands. This research employs a multilayered deep learning model to learn and predict the attenuation at V-band frequencies. The data is collected from the ongoing W/V-band Terrestrial Link Experiment (WTLE) in Albuquerque, NM. WTLE uses weather sensors and the received power data across the link to study the effects of atmosphere on V-band propagation.
Date of Conference: 05-10 July 2020
Date Added to IEEE Xplore: 17 February 2021
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Conference Location: Montreal, QC, Canada

References

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