[1] N David, P Alpert, H Messer. Novel method for water vapour monitoring using wireless communication networks measurements. Atmospheric Chemistry and Physics, 9, 2413-2418(2009).
[2] PVT TUTORIALS POINT (I). LTD. Wireless Communication(2017).
[5] H Leijnse, R Uijlenhoet, JNM Stricker. Rainfall measurement using radio links from cellular communication networks. Water Resources Research, 43(2007).
[6] A Rayitsfeld, R Samuels. Comparison of two methodologies for long term rainfall monitoring using a commercial microwave communication system. Atmospheric research,, 104, 119-127(2012).
[7] N David, P Alpert, H Messer. The potential of commercial microwave networks to monitor dense fog-feasibility study. Journal of Geophysical Research Atmospheres, 118, 11750-11761(2013).
[8] A Overeem, H Leijinse, R Uijlenhoet. Measuring Urban Rainfall Using Microwave Links from Commercial Cellular Communication Networks. Water Resources Research, 47, 1-16(2011).
[9] A Overeem, H Leijinse, R Uijlenhoet. Country-wide Rainfall Maps from Cellular Communication Networks. Proceedings of the National Academy of Sciences, 110, 2741-2745(2013).
[10] A Overeem, H Leijinse, R Uijlenhoet. Two and a Half Years of Country-wide Rainfall Maps using Radio Links from Commercial Cellular Telecommunication Networks. Water Resources Research, 52, 8039-8065(2016).
[11] C Chwala, F Keis, H Kunstmann. Real-time Data Acquisition of Commercial Microwave Link Networks for Hydrometeorological Applications. Atmospheric Measurement Techniques, 9, 991-999(2016).
[12] L Bao, C Larsson, M Mustafa. A brief description on measurement data from an operational microwave network in Gothenburg, Sweden: 15th International Conference on Environmental Science and Technology,2017, 2017, 1-5.
[13] M Gosset, H Kunstmann. ES49-ES51, 97(2016).
[14] A Doumounia, G Marielle, C Frederic. Rainfall monitoring based on microwave links from cellular telecommunication networks: First results from a West African test bed. Geophysical Research Letters, 41, 6015-6021(2014).
[15] N David, P Alpert, H Messer. Humidity Measurements using Commercial Microwave Links. Advanced Trends in Wireless Communications(2012).
[16] P Alpert, Y Rubin. First Daily Mapping of Surface Moisture from Cellular Network Data and Comparison with Both Observations/ECMWF Product. Geophysical Research Letters, 45, 8619-8628(2018).
[21] J Hansryd, Y Li, J Chen, P Ligander. Long Term Path Attenuation Measurement of the 71-76 GHz Band in a 70/80 GHz Microwave Link: Antennas and Propagation (EuCAP), 2010 Proceedings of the Fourth European Conference on, 2010.
[22] T S Rappaport, S Sun, M Shafi. Investigation and Comparison of 3GPP and NYUSIM Channel Models for 5G Wireless Communications: 2017 IEEE 86th Vehicular Technology Conference,2017, 2017, 1-5.
[23] J Miranda, R Abrishambaf, T Gomes. path loss exponent analysis in Wireless Sensor Networks: Experimental evaluation: 2013 11th IEEE International Conference on Industrial Informatics (INDIN),2013, 2013, 54-58.
[24] A Zinevich, H Messer, P Alpert. Prediction of rainfall intensity measurement errors using commercial microwave communication links. Atmospheric Measurement Techniques, 3, 1385-1402(2010).
[25] S Raghavan. Radar Meteorology, 51-9(2003).
[26] Attenuation by Atmospheric Gases. 676(2005).
[27] H J Liebe. An updated model for millimeter wave propagation in moist air. Radio Science, 20, 1069-1089(1985).
