All solutions

Geophysical site characterization using Full Waveform Inversion (FWI) provides high-resolution imaging of subsurface properties by leveraging the complete seismic waveform. This advanced technique delivers detailed velocity models, enabling accurate assessment of geotechnical and geological conditions for engineering and exploration projects.

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.

Gain actionable insights with our precision modeling and inspection services. We deliver reliable results to inform decision-making across research and engineering domains.

Boost your team's capabilities with on-site or remote workshops, typically spanning 3 to 5 days. Learn best practices and advanced techniques directly from our experienced instructors.

Waveform modelling and imaging applied to extra-terrestrial bodies.

Access expert-led support for modeling and inversion projects of any scale. Our team delivers turnkey solutions using Salvus, tailored to your objectives and technical challenges.

Create accurate datasets for AI/ML using waveform inversion.

Salvus enhances borehole acoustic modeling by simulating full-wavefield interactions in complex environments, enabling precise subsurface evaluation and fracture characterization with efficient, high-fidelity physics.

Build high-fidelity digital twins using physics-based simulations of 3D wavefields. Salvus supports scalable, efficient modeling for complex environments and advanced research workflows.

Waveform modeling and full waveform inversion with Salvus enable precise corrosion mapping and pipeline monitoring by analyzing ultrasound-scattered wavefields in complex geometries.

Continuously assessing infrastructure integrity using sensors and wave-based techniques to detect damage and prevent failures.

Use advanced imaging techniques to model full wave propagation and reconstruct high-resolution interior structures. Ideal for material characterization, geophysical exploration, and non-destructive testing.

Using seismic waves to study Earth’s structure, detect subsurface anomalies, and monitor geophysical processes.

Simulate 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.