Opportunistic Rain Rate Estimation from Measurements of Satellite Downlink Attenuation: A Survey

Giannetti, Filippo; Reggiannini, R.

doi:10.3390/s21175872

Cited by 26 publications

(23 citation statements)

References 55 publications

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“…In particular, at any site, there are usually several DTH TV broadcasting satellites, in line-of-sight on the GEO arc (i.e., the Clarke belt as seen in the sky from Earth) with a footprint covering the receive location. For example, assuming Pisa, Italy (10.41478E, 43.71178N), as the receive location, there are about 40 broadcasting satellites in the Ku band, lying on the GEO arc from 70.58E to 37.58W, with at least one beam covering the city [3] (Figure 2).…”

Section: Multi-satellite Rain Sensingmentioning

confidence: 99%

A Feasibility Study on Opportunistic Rainfall Measurement From Satellite TV Broadcasts

Sapienza¹,

Bacci²,

Giannetti³

et al. 2023

RSL

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Rainfall precipitation maps are usually derived based on the measurements collected by classical weather devices, such as rain gauges and weather stations. This article aims to show the benefits obtained by opportunistic rainfall measurements based on signal strength measurements provided by commercial-grade satellite terminals (e.g., used in TV broadcasting). To assess not only the feasibility of this approach, with significant advantages in terms of capital and operational expenditure, but also improvements in terms of accuracy, we focus on a case study for agricultural applications using a Gaussian-modeled synthetic rain over a specific, real-world test area.

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Section: Multi-satellite Rain Sensingmentioning

confidence: 99%

A Feasibility Study on Opportunistic Rainfall Measurement From Satellite TV Broadcasts

Sapienza¹,

Bacci²,

Giannetti³

et al. 2023

RSL

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“…Path-averaged attenuation introduced by rain to the received signal along the radio link, e.g. in Satellite-Earth link as shown in figure 4, can be investigated and estimated to rainfall rate by several model [14]. Diba et al [15] investigated experimental measurements for rainfall monitoring based on data from terrestrial and satellite links using ANN and LSTM.…”

Section: Rainfall Estimation With Telecommunication Microwave Linkmentioning

confidence: 99%

Artificial Intelligent For Rainfall Estimation In Tropical Region : A Survey

Mardyansyah

Kurniawan

Soekirno

et al. 2022

IOP Conf. Ser.: Earth Environ. Sci.

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Rainfall monitoring in real-time is a mandatory in tropical areas such as Indonesia. As a country with various topographical conditions ranging from low-lying urban areas, highlands, to mountainous valleys, Indonesia is prone to hydrometeorological disasters in the form of flash floods and landslides. The strategic geographical position at the equator, between the Pacific and Indian oceans, and surrounded by vast oceans, combined with various natural phenomena related to the dynamics of the atmosphere and the ocean, makes high-density rainfall observations indispensable for both disaster mitigation and climate monitoring. As a vast tropical and archipelagic country, Indonesia currently has around 1000 automatic rainfall sensors and still requires more sensors to increase the spatial resolution of the observation network. Increasing the density of the observation network using both rain gauges and weather radar poses a problem of high operational costs. Therefore, several alternative rainfall observation systems are required. In the last decade, there have been several studies related to rainfall measurements using artificial intelligence from various meteorological variables, including the exploitation of microwave signals from radio telecommunications links, both terrestrial and satellite using high frequency bands. In this survey paper, we review and discuss research articles related to rainfall estimation using state-of-the-art methods in artificial intelligence using meteorological observation data, remote sensing, terrestrial and satellite microwave communication links. In conclusion, we present several future research challenges that can be applied to increase the density of rainfall observation networks.

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“…HMLs have the ability to monitor precipitation in urban areas [ 8 ] and they have formed an important part that supplements the present measurement method. Measuring precipitation can be performed using oblique earth-space links (OELs) [ 9 ]. In [ 10 ], authors used OELs to retrieve the rain intensity in Paris.…”

Section: Introductionmentioning

confidence: 99%

Rain Discrimination with Machine Learning Classifiers for Opportunistic Rain Detection System Using Satellite Micro-Wave Links

Gianoglio

Alyosef

Colli³

et al. 2023

Sensors

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In the climate change scenario the world is facing, extreme weather events can lead to increasingly serious disasters. To improve managing the consequent risks, there is a pressing need to have real-time systems that provide accurate monitoring and possibly forecasting which could help to warn people in the affected areas ahead of time and save them from hazards. The oblique earth-space links (OELs) have been used recently as a method for real-time rainfall detection. This technique poses two main issues related to its indirect nature. The first one is the classification of rainy and non-rainy periods. The second one is the determination of the attenuation baseline, which is an essential reference for estimating rainfall intensity along the link. This work focuses mainly on the first issue. Data referring to eighteen rain events were used and have been collected by analyzing a satellite-to-earth link quality and employing a tipping bucket rain gauge (TBRG) properly positioned, used as reference. It reports a comparison among the results obtained by applying four different machine learning (ML) classifiers, namely the support vector machine (SVM), neural network (NN), random forest (RF), and decision tree (DT). Various data arrangements were explored, using a preprocessed version of the TBRG data, and extracting two different sets of characteristics from the microwave link data, containing 6 or 12 different features, respectively. The achieved results demonstrate that the NN classifier has outperformed the other classifiers.

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Opportunistic Rain Rate Estimation from Measurements of Satellite Downlink Attenuation: A Survey

Cited by 26 publications

References 55 publications

A Feasibility Study on Opportunistic Rainfall Measurement From Satellite TV Broadcasts

A Feasibility Study on Opportunistic Rainfall Measurement From Satellite TV Broadcasts

Artificial Intelligent For Rainfall Estimation In Tropical Region : A Survey

Rain Discrimination with Machine Learning Classifiers for Opportunistic Rain Detection System Using Satellite Micro-Wave Links

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