Mapping and recording underground utilities frequently wind up being a lot harder than what you might first think. Drawings can get out of date, historic records wind up being misplaced, and anything transitioned from hand drawings to desktop layouts complicate archival matters all the more.
On the other hand, when GPR methods are adopted, then distributors are able to verify the specific locations of any subsurface utilities. This helps out greatly with the deliberate planning of further works since risks can be identified and avoided.
Conventional methods of electromagnetic tracing and location have limitations, since they need to induct a signal. These traditional methods aren’t able to identify all underground utilities anymore, given the widespread usage of fiber optic cables and polyethylene gas, among others.
Alternatively, a ground-penetrating radar survey can detect subsurface pipes both metallic as well as non-metallic alike. This kind of survey method is neither intrusive or destructive, and it uses electromagnetic radar pulses in the radio spectrum in order to ascertain and record any structures that are beneath the ground. This kind of method is quite reliable and among the safest methods for mapping out drainage, water pipes, fiber optics, and other underground utility infrastructure.
GPR technology is able to generate underground maps that are translated into fully three-dimensional drawings and imagery by CAD specialists. Such drawings are useful in planning utility projects and figuring out where further underground services may or may not be placed.
The most alluring benefit of GPR survey Ireland to construction and utility professionals is the fact that roads, sidewalks, and ground surfaces don’t have to get excavated. The adoption of GPR methodology means that disturbance and digging aren’t necessary anymore. When a lot is going to have extra utilities added to it, ground-penetrating radar lets construction workers find out where the current utilities are without having to dig for them to confirm their location directly.