This article demonstrates design of a novel miniaturized penta‐band bandpass filter (BPF) having enhanced selectivity with 10 transmission zeros (TZs) employing asymmetrical interdigital coupled lines and square complementary split‐ring resonators (SCSRR). The arrangement of a split in open‐circuited stubs with SCSRR presents an independently controllable additional TZ. The measured minimum insertion losses and shape factors are 1.1, 0.95, 1.35, 1.5, 1.65 dB and 2.1, 1.6, 1.7, 1.85, 1.7, respectively. Hence, this futuristic design structure with five passbands prominently delivers improved selectivity and low‐insertion loss compared with other progressive multi‐band BPFs. The fabricated penta‐band BPF's physical area is 17.5 × 28.5 mm2 and renders five passbands operating at 1.8, 2.4, 3.5, 4.9, and 5.8 GHz for GSM, Wi‐Fi, Wi‐Max, public safety applications, and WLAN applications, respectively.
Neural network (NN) is a nonparametric method to represent the relation between radar measurements and rainfall rate. The relation is derived directly from a dataset consisting of radar measurements and rain gauge measurements. Tropical Rainfall measuring Mission (TRMM) Precipitation Radar (PR) is known to be the first observation platform for mapping precipitation over the tropics. TRMM measured rainfall makes a significant contribution to the study of precipitation distribution over the globe in the tropics. Ground validation (GV) is a critical component in the TRMM system. However, the ground sensing systems have quite different characteristics from TRMM in terms of resolution, scale, sampling, viewing aspect, and uncertainties in the sensing environments. In this paper a novel hybrid NN model is presented to train ground radars for rainfall estimation using rain gauge data and subsequently the trained ground radar rainfall estimation to train TRMM/PR observation based neural networks. This hybrid NN model provides a mechanism to link between gauges on the ground, the ground radar observations and the TRMM/PR observations. The dual-polarization radar measurements from a ground WSR-88DP site in Dallas-Fort Worth region and local rain gauge data will be used for the demonstration purpose. The performance of the rainfall product derived for TRMM PR is then compared against TRMM standard rainfall products. In addition, a direct gauge comparison study is done to examine the improvement brought in by this hybrid neural networks approach.
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