Modeling the Voltage Produced by Ultrasound in Seawater by Stochastic and Artificial Intelligence Methods.

Journal: Sensors (Basel, Switzerland)

Published Date: Jan 30, 2022

Abstract

Experiments have proved that an electrical signal appears in the ultrasonic cavitation field; its properties are influenced by the ultrasound frequency, the liquid type, and liquid characteristics such as density, viscosity, and surface tension. Still, the features of the signals are not entirely known. Therefore, we present the results on modeling the voltage collected in seawater, in ultrasound cavitation produced by a 20 kHz frequency generator, working at 80 W. Comparisons of the Box-Jenkins approaches, with artificial intelligence methods (GRNN) and hybrid (Wavelet-ARIMA and Wavelet-ANN) are provided, using different goodness of fit indicators. It is shown that the last approach gave the best model.

Authors

Alina Bărbulescu

Department of Civil Engineering, Transylvania University of Brașov, 5 Turnului Str., 900152 Brasov, Romania.
Cristian Ștefan Dumitriu

Department of Installations for Constructions, Transylvania University of Brașov, 5 Turnului Str., 900152 Brasov, Romania.

Keywords

Artificial Intelligence Incidence Seawater Ultrasonography

External Resources

View on PubMed Access via DOI PubMed (35161834)

Modeling the Voltage Produced by Ultrasound in Seawater by Stochastic and Artificial Intelligence Methods.

Abstract

Authors

Keywords

External Resources

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