Simulation of radiometric and attenuation measurements along Earth‐satellite links in the 10‐ to 50‐GHz band through horizontally finite convective rain cells

Marzano, Frank S.; Fionda, E.; Ciotti, P.

doi:10.1029/1999rs900030

Cited by 19 publications

(17 citation statements)

References 23 publications

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“…Note that the latter hypothesis is behind the radiative transfer model applied to vertically-stratified atmosphere. This problem may be removed by resorting to the local homogeneity within the beamwidth and by carrying out a modified radiative transfer computation along the inclined path (Marzano et al, 1999b). Moreover, by utilizing the scanning information, there might be the opportunity to develop new algorithms to retrieve the gross vertical profiles of hydrometeors.…”

Section: Discussionmentioning

confidence: 98%

“…The major drawback is the representativeness of its microphysics and electromagnetic description which needs to be carefully adapted to a large variety of scenarios (e.g., Marzano and Bauer, 2001). The radiative transfer theory (RTT) offers a suitable theoretical model to characterize the down-welling brightness temperature, measured by a microwave radiometer and due to clouds and precipitation (Marzano et al, 1999b;Czekala et al, 2001;Smith et al, 2002). The rainfall radiative model, adopted in this paper, is here briefly summarized in order to give a physical understanding of the retrieval results.…”

Section: Characterization Of Ground-based Microwave Radiometric Obsermentioning

confidence: 99%

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Neural-network approach to ground-based passive microwave estimation of precipitation intensity and extinction

Marzano

Fionda

Ciotti

2006

Journal of Hydrology

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Section: Discussionmentioning

confidence: 98%

Section: Characterization Of Ground-based Microwave Radiometric Obsermentioning

confidence: 99%

Neural-network approach to ground-based passive microwave estimation of precipitation intensity and extinction

Marzano

Fionda

Ciotti

2006

Journal of Hydrology

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“…If the specific intensity is assumed to be uniform within the antenna beamwidth, for highly directive antennas (19) yields , which is the approximation used in [22]. Notice that we do not model here the antenna noise temperature due to rainfall along the path [36], [38].…”

Section: B Definitions For Numerical Analysismentioning

confidence: 98%

“…The solution of (8b) is not an easy task, especially if considering a three-dimensional geometry of the scattering medium [36]- [38]. Under the assumption of a plane-parallel medium (horizontally stratified), the RT equation can be simplified and expressed using the coordinates (distance), (zenithal angle), and (azimuthal angle).…”

Section: Radiative Transfer Modelmentioning

confidence: 99%

Numerical investigation of intense rainfall effects on coherent and incoherent slant-path propagation at K-band and above

Marzano

Roberti

2003

IEEE Trans. Antennas Propagat.

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A model investigation is carried out to analyze the impact of intense rainfall on slant-path microwave propagation, using a rainfall microphysical model. The effects are evaluated both for path attenuation, undergone by coherent radiation, and for multiple scattering phenomena, originating incoherent radiation along the path. Atmospheric spatial inhomogeneity is taken into account by considering a precipitating-cloud three-dimensional distribution, obtained from the numerical outputs of a microphysical cloud-resolving model. The electromagnetic propagation model is formulated by means of the radiative transfer theory, rigorously defining the forward coherent multiple scattering effect within this framework. The propagation model is applied both to simplified rain slabs and to vertically and horizontally inhomogeneous raining cloud structures in order to compare the impact of atmospheric models on coherent and incoherent propagation. Beacon frequencies between 20-50 GHz are considered together with elevation angles between 20 -40 and surface rain rates from 1 to 100 mm/h. Appropriate sensitivity analysis parameters are defined to present and discuss the numerical results. The main conclusion of this numerical study is that the impact of the convective rainfall structure can be significant both in determining total attenuation and to quantify multiple scattering contribution to the received power. For intense rainfall, the use of a rain slab model can overestimate coherent attenuation and, at the same time, underestimate incoherent intensity. The analysis of realistic raining clouds structures reveals the significance of modeling the volumetric albedo of precipitating ice, particularly at V-band. Total path attenuation can strongly depend on the pointing direction of the receiving antenna due to the intrinsic variability of the precipitating cloud composition along the slant path. Coupling cloud-resolving models with radiative transfer schemes may be foreseen as a new approach to develop statistical prediction methods at Ka-band and above in a way analogous to that pursued by using weather-radar volume data.Index Terms-Cloud and rainfall modeling, earth-satellite millimeter-wave links, microwave propagation, multiple scattering effects, radiative transfer theory, rain attenuation.

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“…This mapping is easily obtained in clear sky or non rainy conditions (Faccani et al, 2005 1 ), but it becomes complex in rainfall conditions (Amerault and Zou, 2003). The computation of the atmospheric microwave radiance in cloudy and rainy conditions is a critical task for radiative transfer models, as it has to include multiple scattering effects (Marzano et al, 1999a(Marzano et al, , 1999bDi Michele et al, 2005). To accurately compute T B in previous conditions, it is necessary to use a hydrometeor profiles such as liquid water droplets, raindrops, ice crystals, snow and graupel particles.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of radiative transfer schemes for mesoscale model data assimilation: a case study

et al. 2006

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Abstract. The assimilation of Special Sensor Microwave Imager (SSM/I) data into the Mesoscale Model 5 (MM5) allows for improving the weather forecast. However the results suggested an update the Radiative Transfer Equation (RTE) within the three-dimensional variational (3DVAR) algorithm which is tailored for non rainy conditions only. To this purpose, a new RTE algorithm is tested, in order to account for radiometric response in rainy regions. The new brightness temperatures (T B ) are estimated by using hydrometeor profiles from the MM5 mesoscale model, running with two different microphysical parameterizations. The goodness of the results is assessed by comparing the new T B with those of the original RTE algorithm in the 3DVAR code and the SSM/I observed data. The results confirm a better reliability of the new RTE compared to the old one.

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Simulation of radiometric and attenuation measurements along Earth‐satellite links in the 10‐ to 50‐GHz band through horizontally finite convective rain cells

Cited by 19 publications

References 23 publications

Neural-network approach to ground-based passive microwave estimation of precipitation intensity and extinction

Neural-network approach to ground-based passive microwave estimation of precipitation intensity and extinction

Numerical investigation of intense rainfall effects on coherent and incoherent slant-path propagation at K-band and above

Evaluation of radiative transfer schemes for mesoscale model data assimilation: a case study

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