Centerline and depth locating method for non-metallic buried utility lines
First Claim
1. A buried utility line locator, comprising:
- an electromagnetic locator that senses the electromagnetic signal from an electromagnetically charged metallic utility line and determining the location and depth of the metallic utility line;
a ground penetrating radar that senses the location and depth of non-metallic and metallic utility lines;
an inertial position sensor that senses the change in location of the locator relative to the centerline position of the utility line; and
a microprocessor that executes a signal processing algorithm that predicts track of the target utility line based on inputs from the ground penetrating radar and the inertial sensor data, using depth calibration data derived from independent operation of the electromagnetic locator.
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Accused Products
Abstract
A locator capable of tracking buried, non-metallic utility lines (fiber optic, gas, water, waste, conduits) using ground penetrating radar (GPR) and an inertial position sensor is described. In some embodiments, a tracking filter is applied to a hyperbolic trajectory model based on the radar range data to determine a predicted track of the target utility line. After comparison of the predicted track to the measured inertial position, the centerline variance of the tracked line can be deduced. In some embodiments, an electromagnetic pipe and cable locator may also be included. Some embodiments of the invention can include accurate depth calibration and line depth tracking. Further, a display may provide results to a user in a simplified fashion.
138 Citations
2 Claims
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1. A buried utility line locator, comprising:
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an electromagnetic locator that senses the electromagnetic signal from an electromagnetically charged metallic utility line and determining the location and depth of the metallic utility line; a ground penetrating radar that senses the location and depth of non-metallic and metallic utility lines; an inertial position sensor that senses the change in location of the locator relative to the centerline position of the utility line; and a microprocessor that executes a signal processing algorithm that predicts track of the target utility line based on inputs from the ground penetrating radar and the inertial sensor data, using depth calibration data derived from independent operation of the electromagnetic locator. - View Dependent Claims (2)
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Specification