A hybrid numerical approach to quantify directivity patterns using phaseless hydroacoustic data
Title
A hybrid numerical approach to quantify directivity patterns using phaseless hydroacoustic dataDate
2023Citation
Prieto, A., Recondo, S., & Instruments, M. (2023). A hybrid numerical approach to quantify directivity patterns using phaseless hydroacoustic data. Proceedings of Forum Acusticum 2023 10th Convention of the European Acoustics Association, EAA 2023. Pp. 6229-6235. DOI: 10.61782/fa.2023.0763
Abstract
[Abstract]: Hydroacoustic transducers have been used profusely in monitoring activities in coastal and oceanic marine environments for fishery purposes and the health evaluation of the seabed and its related biological ecosystems. Accurately predicting its directivity patterns plays a crucial role in the subsequent numerical simulations of complex marine environments. The transducers can be quickly characterized experimentally using in-house laboratory equipment where their acoustic response can be obtained from time-harmonic near-field phaseless data. Obviously, the extrapolation of those near-field data to predict the time-harmonic far-field generated pressure cannot be computed straightforwardly and requires estimating the directivity pattern associated with the transducer. A hybrid approach based on the combination of data-driven reconstruction techniques and an integral representation of the pressure field is analyzed in this work. The accuracy of the proposed methodology is illustrated in realistic scenarios with available closed-form solutions such as omnidirectional sources and end-fire arrays. The impact of using different phase retrieval and quadrature methods is also quantified numerically.
Keywords
Directivity
Hydroacoustics
Integral methods
Phaseless data
Hydroacoustics
Integral methods
Phaseless data
Description
© 2023 Prieto et al. This is an open-access article distributed under the terms of the Creative Commons Attribution 3.0 Unported License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Editor version
Rights
Atribución 3.0 España
ISSN
2221-3767
ISBN
978-888894267-4