GPR Mapping Systems

What is Ground Penetrating Radar (GPR)?

Ground penetrating radar (GPR) is a geophysical method that uses radar pulses to image the subsurface. This non-destructive method uses electromagnetic (EM) radiation in the microwave band (UHF/VHF frequencies) of the radio spectrum, and detects the reflected signals from subsurface structures.

Applications for GPR include locating buried voids/cavities, underground storage tanks, sewers, foundations, ancient landfills, pipelines and cables. It can also be used to characterize bedrock, ice, the internal structure of floors/walls, water damage in concrete, and the internal steelwork in concrete.

GPR uses transmitting and receiving antennae. The transmitting antenna radiates short pulses of the high-frequency (usually polarized) radio waves into the ground. When the wave hits a buried object or a boundary with different dielectric constants, the receiving antenna records variations in the reflected return signal.

The depth range of GPR is limited by the electrical conductivity of the ground, and the transmitting frequency. Higher frequencies do not penetrate as far as lower frequencies, but give better resolution. Optimal depth penetration is achieved in dry sandy soils or massive dry materials such as granite, limestone, and concrete where the depth of penetration is up to 15 m. In moist and/or clay laden soils and soils with high electrical conductivity, penetration is sometimes only a few centimeters.

The GPR Method

The waves travel from the transmitting antenna into the ground where they are reflected by and diffracted from non-homogeneous. The receiver records the electric field returning from the subsurface as a function of time. Such a recording is known as a trace. A set of traces collected along a line is known as a profile.

A plot of a profile is known as a radargram and resembles a vertical slice through the ground. There are several methods to transform the profile (distance versus time) to a true depth section (distance versus depth). The basic principle is, however, always the same.

If we know the radar wave velocity and the time it takes for the radar wave to travel along the path transmitter – reflecting point – receiver, it is possible to calculate the depth to the reflecting point in the ground.

08702 40 52 80