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Noam David
Noam David
CEO and Founder, AtmosCell
Verified email at atmoscell.com - Homepage
Title
Cited by
Cited by
Year
Novel method for water vapour monitoring using wireless communication networks measurements
N David, P Alpert, H Messer
Atmospheric chemistry and physics 9 (7), 2413-2418, 2009
932009
Cellular network infrastructure: The future of fog monitoring?
N David, O Sendik, H Messer, P Alpert
Bulletin of the American Meteorological Society 96 (10), 1687-1698, 2015
572015
The potential of commercial microwave networks to monitor dense fog‐feasibility study
N David, P Alpert, H Messer
Journal of geophysical research: atmospheres 118 (20), 11,750-11,761, 2013
522013
The potential of cellular network infrastructures for sudden rainfall monitoring in dry climate regions
N David, P Alpert, H Messer
Atmospheric research 131, 13-21, 2013
472013
Using cellular communication networks to detect air pollution
N David, HO Gao
Environmental science & technology 50 (17), 9442-9451, 2016
402016
The potential of microwave communication networks to detect dew—Experimental study
O Harel, N David, P Alpert, H Messer
IEEE Journal of Selected Topics in Applied Earth Observations and Remote …, 2015
302015
Humidity measurements using commercial microwave links
N David, P Alpert, H Messer
Advanced trends in wireless communications 65, 78, 2011
222011
Study of attenuation due to wet antenna in microwave radio communication
N David, O Harel, P Alpert, H Messer
2016 IEEE International Conference on Acoustics, Speech and Signal …, 2016
192016
Mobile networks aid weather monitoring
P Alpert, H Messer, N David
Nature 537 (7622), 617-617, 2016
182016
Using Cell‐Phone Tower Signals for Detecting the Precursors of Fog
N David, HO Gao
Journal of Geophysical Research: Atmospheres 123 (2), 1325-1338, 2018
172018
Analyzing the ability to reconstruct the moisture field using commercial microwave network data
N David, O Sendik, Y Rubin, H Messer, HO Gao, D Rostkier-Edelstein, ...
Atmospheric research 219, 213-222, 2019
162019
Meteor light curves: the relevant parameters
N Brosch, R Helled, D Polishook, E Almoznino, N David
Monthly Notices of the Royal Astronomical Society 355 (1), 111-119, 2004
132004
On the power of microwave communication data to monitor rain for agricultural needs in Africa
N David, Y Liu, KK Kumah, JCB Hoedjes, BZ Su, HO Gao
Water 13 (5), 730, 2021
112021
Combining MWL and MSG SEVIRI satellite signals for rainfall detection and estimation
KK Kumah, JCB Hoedjes, N David, BHP Maathuis, HO Gao, BZ Su
Atmosphere 11 (9), 884, 2020
112020
Novel method for fog monitoring using cellular networks infrastructures
N David, P Alpert, H Messer
Atmospheric Measurement Techniques Discussions 5 (4), 5725-5752, 2012
112012
Microwave communication networks as a sustainable tool of rainfall monitoring for agriculture needs in Africa
N David, HO Gao, KK Kumah, J Hoedjes, B Su, Y Liu
Proceedings of the 16th International Conference on Environmental Science …, 2019
92019
The MSG technique: Improving commercial microwave link rainfall intensity by using rain area detection from Meteosat Second Generation
KK Kumah, JCB Hoedjes, N David, BHP Maathuis, HO Gao, BZ Su
Remote Sensing 13 (16), 3274, 2021
82021
Harnessing crowdsourced data and prevalent technologies for atmospheric research
N David
Advances in Atmospheric Sciences 36, 766-769, 2019
72019
Utilizing microwave communication data for detecting fog where satellite retrievals are challenged
N David
Natural Hazards, 2018
72018
Humidity measurements using commercial microwave links, Advanced Trends in Wireless Communications
N David, P Alpert, H Messer
Croatia, Europe: InTech Publications, 2011
62011
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