Bentley Systems’ Seequent Acquires Aarhus GeoSoftware
Bentley Systems has reported that its Seequent business unit has acquired Danish company Aarhus GeoSoftware, a developer of geophysical software.
The acquisition extends Seequent’s solutions for operational groundwater management, and sustainability projects involving exploration, contaminants, and infrastructure resilience.
Graham Grant, Chief Executive Officer of Seequent, said, “The acquisition will add new geophysical data processing capabilities to our workflows to help advance subsurface investigation and modeling. AGS software, coupled with Seequent’s advanced geologic modeling and analysis software, creates a key tool in helping understand and manage groundwater and assessing risk in infrastructures such as dams and canals. We’re excited about the new possibilities this opens up for our collective users worldwide, improving lifetime digital twins.”
Toke Højbjerg Søltoft, Chief Executive Officer of Aarhus GeoSoftware, said, “Seequent’s global reach will allow AGS software to positively impact more projects worldwide. As we continue to develop solutions, our users will benefit from our tools being in Seequent’s ecosystem and workflow. We’re excited to join Seequent and to work together on our shared vision of helping organizations make more informed and sustainable decisions through a better understanding of the subsurface.”
Aarhus GeoSoftware, a spinoff company from Aarhus University in Denmark, develops the software packages AGS Workbench, SPIA, Res2DInv, and Res3DInv for the processing, inversion, and visualization of geophysical data from ground-based and airborne electromagnetic (EM), electrical resistivity tomography (ERT) remote sensing, and other sources.
AGS software enables users to create 2D and 3D images of subsurface electrical resistivity. The outputs of the software can be used to distinguish and differentiate subsurface materials and can subsequently be modeled in Seequent’s Leapfrog to aid in various subsurface investigations.
The software uses electric field measurements, collected at ground level or with airborne sensors, to map the subsurface distribution of certain materials such as water, mineral deposits, and clays.
Electrical resistivity allows a better understanding of the distribution of materials such as water, mineral deposits, and clays, and when the water contains other compounds such as salt, researchers and industry professionals can infer the distribution.