High-Directional Sound Propagation Over the Earth’s Surface

The article discusses the issues of accounting the direction pattern of parametric antenna array the propagation of sound over the Earth’s surface. As a radiator, a parametric antenna array is used. A description is given of measuring equipment and experimental research methods. The Delaney-Bezley m...

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Veröffentlicht in:	Archives of acoustics 2020-01, Vol.45 (4), p.747
Hauptverfasser:	Rakov, Denis S, Rakov, Aleksandr S, Chursin, Yury A, Pavlichev, Vsevolod V, Igumnov, Artyom O
Format:	Artikel
Sprache:	eng
Schlagworte:	Acoustic propagation Acoustics Antenna arrays Antennas Archives & records Earth surface Frequencies Propagation Radiation Radiators Receivers & amplifiers Research methodology Sound pressure Sound propagation Sound waves
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creator	Rakov, Denis S Rakov, Aleksandr S Chursin, Yury A Pavlichev, Vsevolod V Igumnov, Artyom O
description	The article discusses the issues of accounting the direction pattern of parametric antenna array the propagation of sound over the Earth’s surface. As a radiator, a parametric antenna array is used. A description is given of measuring equipment and experimental research methods. The Delaney-Bezley model was used as a model of the Earth’s surface impedance. The research results showed the importance of accounting the direction pattern of parametric antenna array in predicting the sound pressure level of a propagating acoustic signal over the Earth’s surface. On the example of a difference signal with a frequency of 2 kHz, the calculation of the sound pressure level on a 100-meter path with the influence of the Earth’s surface is shown. The results obtained showed a good agreement between the theoretical calculation and experimental data.
doi_str_mv	10.24425/aoa.2020.135280
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subjects	Acoustic propagation Acoustics Antenna arrays Antennas Archives & records Earth surface Frequencies Propagation Radiation Radiators Receivers & amplifiers Research methodology Sound pressure Sound propagation Sound waves
title	High-Directional Sound Propagation Over the Earth’s Surface
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