论文信息 - Quantification and Modeling of Wet-Antenna Attenuation for Commercial Microwave Links

Quantification and Modeling of Wet-Antenna Attenuation for Commercial Microwave Links

Data from a new experimental setup deployed in Dübendorf (Switzerland) are used to quantify and model the magnitude and dynamics of the wet-antenna attenuation (WAA) affecting a 1.85-km commercial microwave link at 38 GHz. The results show that the WAA exhibits the following properties: 1) It is bounded by a maximum value of about 2.3 dB; 2) it increases exponentially toward 2.3 dB during the first 5-20 min of rainfall; and 3) it decreases exponentially as soon as the rain stops. A new dynamic WAA model that reproduces these three features and can be calibrated using solely link measurements is proposed. Its performance is evaluated at different temporal resolutions and compared with other wet-antenna models from the literature. The results show that the dynamic model outperforms all other models and significantly reduces the uncertainty of the retrieved path-averaged rain rates.

[1] Remko Uijlenhoet,et al. Microwave link rainfall estimation: Effects of link length and frequency, temporal sampling, power resolution, and wet antenna attenuation , 2008 .

[2] Hidde Leijnse,et al. Rainfall measurement using radio links from cellular communication networks , 2007 .

[3] Graham J. G. Upton,et al. Use of dual-frequency microwave links for measuring path-averaged rainfall , 2003 .

[4] M. Kaufmann,et al. Identification of dry and rainy periods using telecommunication microwave links , 2011 .

[5] J. Chilès,et al. Geostatistics: Modeling Spatial Uncertainty , 1999 .

[6] Haruya Minda,et al. High Temporal Resolution Path-Average Rain Gauge with 50-GHz Band Microwave , 2005 .

[7] M.M.Z. Kharadly,et al. Effect of wet antenna attenuation on propagation data statistics , 2001 .

[8] Hidde Leijnse,et al. Measuring urban rainfall using microwave links from commercial cellular communication networks , 2011 .

[9] Alexis Berne,et al. Using Markov switching models to infer dry and rainy periods from telecommunication microwave link signals , 2012 .

[10] Hagit Messer,et al. Environmental Monitoring by Wireless Communication Networks , 2006, Science.

[11] Dmitri Kavetski,et al. Microwave links for rainfall estimation in an urban environment: Insights from an experimental setup in Luxembourg-City , 2012 .

[12] Remko Uijlenhoet,et al. Hydrometeorological application of a microwave link: 2. Precipitation , 2007 .