Model for the 3D Location of Buried Assets Based on RFID Technology

As construction and renovation equipment excavate in the vicinity of utility lines, the buried infrastructure is likely to suffer some form of "attack," be that simple mechanical abrasion or a major rupture. Damage to underground services can lead to widespread disruption and significant upstream (service provider) and downstream (end user) losses, often resulting in whole communities being isolated from emergency services and losing essential utilities such as water, gas, and electricity. The ability to physically determine on site the location of underground utilities is critical to reduce risk and consequence during excavation. For these reasons, the location and efficient maintenance of buried assets are a high priority, especially for utility companies. This paper presents the development of a model for the three-dimensional (3D) location of buried assets based on radio frequency identification (RFID) technology and findings from laboratory and field experiments. Passive, low frequency RFID devices were used during the research. Two approaches of this model, "Method A" and "Method B," along with major experimental findings are discussed within the paper. In order to validate the applicability of each method, "real-world" field experiments were performed. The findings from this research demonstrated that applying RFID technology to locate buried assets has a great potential for facilitating the accurate 3D data of underground infrastructure.