Fourier-Domain Wavefield Rendering for Rapid Simulation of Synthetic Aperture Sonar Data

Fourier-Domain Wavefield Rendering for Rapid Simulation of Synthetic Aperture Sonar Data

This article introduces a new method for simulating synthetic aperture sonar (SAS) raw coherent echo data, which is orders of magnitude faster than the commonly used point and facet diffraction models. The new approach uses Fourier wavefield generation and propagation in combination with a highly op...

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Veröffentlicht in:IEEE journal of oceanic engineering 2024-10, Vol.49 (4), p.1501-1515
Hauptverfasser: Sanford, Ciaran J., Thomas, Benjamin W., Hunter, Alan J.
Format: Artikel
Sprache:eng
Schlagworte:
Apertures
Cameras
Computational modeling
Computer graphics
computer simulation
data augmentation
Data models
machine learning
Rendering (computer graphics)
Scattering
Synthetic aperture sonar
synthetic data
underwater acoustics
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Zusammenfassung:This article introduces a new method for simulating synthetic aperture sonar (SAS) raw coherent echo data, which is orders of magnitude faster than the commonly used point and facet diffraction models. The new approach uses Fourier wavefield generation and propagation in combination with a highly optimized optical rendering engine. It has been shown to produce a quantifiably similar quality of data and data products (i.e., images and spectra) to a point-diffraction model, capturing the important coherent wave physics (including diffraction, speckle, aspect-dependence, and layover) as well as effects of the SAS processing chain (including image focusing errors and artifacts). This new simulation capability may be an enabler for augmenting data sets with physically accurate and diverse synthetic data for robust machine learning.
ISSN:0364-9059
1558-1691
DOI:10.1109/JOE.2024.3401968