Distributed Acoustic Sensing (DAS) transforms fiber optic cables into dense sensor arrays, capturing vibrations for geophysical imaging, structural monitoring, and non-destructive testing with unparalleled spatial coverage.
Read moreBuild high-fidelity digital twins using physics-based simulations of 3D wavefields. Salvus supports scalable, efficient modeling for complex environments and advanced research workflows.
Read moreSimulate wave phenomena in acoustics, seismology, and other fields to predict and analyze wave behavior in complex environments. Our tools support accurate modeling for engineering design and research applications.
Read moreContinuously assessing infrastructure integrity using sensors and wave-based techniques to detect damage and prevent failures.
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We show how accurate meshing as well as heterogeneous and anisotropic materials allow us to create physically accurate digital twins replicating ultrasonic guided waves in layered composites, fundamental to non-destructive testing.
This case study shows the usage of Salvus for illustrating how different levels of attenuation in realistic materials influence the signals generated by material defects, thereby influencing the limits of detection.
