2018
DOI: 10.1371/journal.pone.0192069
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A modified artificial neural network based prediction technique for tropospheric radio refractivity

Abstract: Radio refractivity plays a significant role in the development and design of radio systems for attaining the best level of performance. Refractivity in the troposphere is one of the features affecting electromagnetic waves, and hence the communication system interrupts. In this work, a modified artificial neural network (ANN) based model is applied to predict the refractivity. The suggested ANN model comprises three modules: the data preparation module, the feature selection module, and the forecast module. Th… Show more

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Cited by 16 publications
(11 citation statements)
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“…All EM waves must obey the inverse square law (Javeed et al, 2018;Oyedum 2008), where the radiated wave will have a value that is reduced quadratically with the increase of distance away from the source. These EM waves will be reflected, refracted, etc.…”
Section: Refractivity Theorymentioning
confidence: 99%
See 1 more Smart Citation
“…All EM waves must obey the inverse square law (Javeed et al, 2018;Oyedum 2008), where the radiated wave will have a value that is reduced quadratically with the increase of distance away from the source. These EM waves will be reflected, refracted, etc.…”
Section: Refractivity Theorymentioning
confidence: 99%
“…These EM waves will be reflected, refracted, etc. Refractivity, which we will be partly studying, is coined from the refractive index n, which is related to the speed of the signal in free space and the speed of the signal in the specified medium (in this case the atmosphere) as (Javeed et al 2018;Oyedum 2008);…”
Section: Refractivity Theorymentioning
confidence: 99%
“…Generally, the numbers of layers and neurons are not fixed; instead, they are determined by empirical methods depending on the complexity of the problem. When there are too many layers and neurons it may require excessive time to learn the samples; in contrast, when there are too few layers, the fault-tolerance and sample identification performance will fall to a low level [14]. The number of neurons in each hidden layer is typically set to (2, 4, 2) when there are 3 hidden layers and when input neurons have two variables.…”
Section: Model Training and Testingmentioning
confidence: 99%
“…ANNs are most suitable for this investigation, considering the big data involved and established capacity of neural networks to learn trends in complex systems ( Baboo and Shereef, 2010 , Okoh et al, 2019 ). ANNs have been applied to analyze large and unstructured data, and to carry out functions such as: time series forecasting, data processing, sequence classification, pattern re-orientation and numerical control ( Javeed et al, 2018 ). ANNs have also been demonstrated to be ideal candidates for modeling atmospheric parameters in the region ( Fadare, 2009 , Id et al, 2015 , Kenabatho et al, 2015 , Okoh et al, 2015 , 2020).…”
Section: Introductionmentioning
confidence: 99%