Add to ORKGA three dimensional underground mapping system has been developed to support electric, gas, water, and communications utility locating and mapping. The objective of the work was to reduce underground accidents, installation and maintenance costs, and lost revenue from outages. A prototype Ground Penetrating imaging Radar (GPiR) system was developed and tested at eight utilities. Technical success let to the development of a parallel radar system providing high-speed and low cost underground mapping
The population growth, technological improvements, and the need for repairing old or installing new ...
This paper describes in detail the applicability of the developed ground-penetrating radar (GPR) mod...
For the planning and sustainable development of large cities, it is critical to accurately locate an...
Ground-penetrating imaging radar (“GPiR”) combines standard GPR with accurate positioning and advanc...
GPiR (ground-penetrating imaging radar) is a new technology for mapping the shallow subsurface, incl...
Keeping track of underground utilities through maps or real physical signs is essential for their ma...
Ground Penetrating Radar (GPR) is an active instrument often used to detect underground utility loca...
Applying georadar (GPR) technology for detecting underground utilities is an important element of th...
Keeping track of underground utilities through maps or real physical signs is essential for their ma...
Abstract: The demand for new buried utilities, such as gas, power and fiber-optic communication line...
The Department of Energy has identified the location and characterization of subsurface contaminants...
Underground utility detection and mapping is a relevant issue to the social community as regard to m...
We develop the theory behind and a prototype of a 0.3-12 GHz ground-penetrating radar (GPR) system f...
The rapid urbanization development leads an aging underground infrastructure increasing demands on c...
A major UK initiative, entitled Mapping the Underworld (MTU), is seeking to address the serious soci...
The population growth, technological improvements, and the need for repairing old or installing new ...
This paper describes in detail the applicability of the developed ground-penetrating radar (GPR) mod...
For the planning and sustainable development of large cities, it is critical to accurately locate an...
Ground-penetrating imaging radar (“GPiR”) combines standard GPR with accurate positioning and advanc...
GPiR (ground-penetrating imaging radar) is a new technology for mapping the shallow subsurface, incl...
Keeping track of underground utilities through maps or real physical signs is essential for their ma...
Ground Penetrating Radar (GPR) is an active instrument often used to detect underground utility loca...
Applying georadar (GPR) technology for detecting underground utilities is an important element of th...
Keeping track of underground utilities through maps or real physical signs is essential for their ma...
Abstract: The demand for new buried utilities, such as gas, power and fiber-optic communication line...
The Department of Energy has identified the location and characterization of subsurface contaminants...
Underground utility detection and mapping is a relevant issue to the social community as regard to m...
We develop the theory behind and a prototype of a 0.3-12 GHz ground-penetrating radar (GPR) system f...
The rapid urbanization development leads an aging underground infrastructure increasing demands on c...
A major UK initiative, entitled Mapping the Underworld (MTU), is seeking to address the serious soci...
The population growth, technological improvements, and the need for repairing old or installing new ...
This paper describes in detail the applicability of the developed ground-penetrating radar (GPR) mod...
For the planning and sustainable development of large cities, it is critical to accurately locate an...