Methodology Ground Penetrating Radar (GPR) is a high-resolution, non-destructive geophysical method. It works by emitting high-frequency electromagnetic pulses into the ground. When these waves encounter an interface with contrasting electrical properties, they reflect back to the receiver. By analyzing the waveform, amplitude, and travel time of these signals, we can accurately determine the location, geometry, and depth of subsurface targets. GPR provides exceptional imaging clarity, particularly at depths between 3 and 10 meters. Key Applications Given its sensitivity to electromagnetic variances, GPR is an essential tool for identifying structural compositions and internal anomalies:
Utility Mapping: Detecting both metallic and non-metallic underground services, including power cables, gas mains, fiber optics, water pipes, and drainage systems.
Subsurface Imaging: Identifying underground voids, sinkholes, and shallow stratigraphic profiles.
Structural Health Monitoring: Locating internal defects in concrete, such as voids, delamination, and structural cracks.
