Geotechnical engineers harness a critical role in detecting subsurface voids, which incur significant challenges to the stability and functionality of structures. These hidden cavities can arise from various causes, such as geological formations, degradation, or human activities. Leveraging a suite of investigative techniques, including geophysica… Read More

Subsurface voids pose significant risks to geotechnical integrity. Accurately mapping these voids is essential for ensuring the safety of structures and infrastructure. Traditional methods, such as borehole logging, can be time-consuming and provide limited spatial resolution. Emerging geophysical techniques, including ground electrical resistivity… Read More

Geotechnical exploration strategies are vital for characterizing cavities and voids within the subsurface. These structures can significantly influence the stability of foundations, infrastructure, and landforms. A variety of non-invasive exploration methods are employed to identify cavities and voids. These include test pits, geophysical technique… Read More

Geophysical exploration employs a crucial role in the identification and characterization of potential mineral orebodies. By employing various physical methods, geologists can survey beneath the Earth's surface to identify subsurface structures and anomalies indicative of mineral concentration. These geophysical techniques often involve the measur… Read More