Published In
The Journal of the Acoustical Society of America
Document Type
Article
Publication Date
11-1-2024
Subjects
Wave resistance (Hydrodynamics), Water waves, Structural health monitoring
Abstract
Models of the underwater acoustic soundscape are important for evaluating the effects of human generated sounds on marine life. The performance of models can be validated against measurements or verified against each other for consistency. A verification workshop was held to compare models that predict the soundscape from wind and vessels and estimate detection ranges for a submerged target. Eight modeling groups participated in the workshop which predicted sound levels with observation windows of 1 min and 1 km2. Substantial differences were found in how modelers computed the propagation losses for decidecade bands and estimated the source level of wind. Further investigations resulted in recommendations on best practices. Choices of temporal and spatial modeling resolution affected the estimates of metrics proportional to total sound energy more than distributions of sound pressure level. Deeper receivers were less sensitive to these parameters than shallow ones. A temporal resolution of 1 min and spatial resolution of 100 m is recommended. Models that follow the recommendations will yield similar results. The detection range of underwater targets is highly variable when the ambient noise depends on moving noise sources. Future work to verify models against data and understand model uncertainty is recommended.
Rights
Copyright (c) 2024 The Authors
This work is licensed under a Creative Commons Attribution 4.0 International License.
Locate the Document
DOI
10.1121/10.0026597
Persistent Identifier
https://archives.pdx.edu/ds/psu/42891
Citation Details
Martin, S. B., Siderius, M., Ainslie, M. A., Halvorsen, M. B., Hatch, L., Prior, M. K., Brooker, D., Caplinger, J., Erbe, C., Gebbie, J., Heaney, K. D., MacGillivray, A. O., Matthews, M.-N., Oppeneer, V. O., Schäfke, A., Schoeman, R. P., & Sertlek, H. Ö. (2024). Verifying models of the underwater soundscape from wind and ships with benchmark scenarios. The Journal of the Acoustical Society of America, 156(5), 3422–3438.