Avoiding ghosting artifacts during surface location of subsurface transmitters
First Claim
1. A method for locating the position of a movable subsurface beacon transmitting an electromagnetic dipole signal producing a true surface signal vertically positioned above the beacon and ghost surface signals laterally displaced from the vertical position, comprising the steps of:
- orienting a first antenna of an above surface device substantially horizontal relative to the ground surface;
orienting a second antenna of the surface device substantially vertical to the ground surface;
calculating a ratio using signal strengths of a signal received from the subsurface beacon by the first antenna and by the second antennacomparing the ratio to a predetermined number and identifying the received signal as a true signal if the ratio exceeds the predetermined number, and identifying the received signal as a ghost signal if the ratio is less than the predetermined number; and
using the true surface signal to provide the true position of the beacon along the path of movement thereof.
1 Assignment
0 Petitions
Accused Products
Abstract
An apparatus and method is provided for determining if the signal received from an underground beacon (10) at a locator (22) is a true signal or a ghost signal. Orthogonal horizontal antenna (38) and vertical antenna (40) are used and a ratio is computed of the signal strengths measured by the two antennas. At the true location, the signal strength in the horizontal antenna (38) will be maximum and the signal strength of the vertical antenna (40) will be a null. If the ratio of the signal strength sensed by the horizontal antenna and vertical antenna is large, exceeding a predetermined value, the locator is receiving a valid signal from the beacon and a display of this fact is made on a display on the locator and the depth of the beacon is calculated. If the ratio is less than the predetermined value, a ghost signal is being received and this fact is displayed on the display on the locator (22).
97 Citations
17 Claims
-
1. A method for locating the position of a movable subsurface beacon transmitting an electromagnetic dipole signal producing a true surface signal vertically positioned above the beacon and ghost surface signals laterally displaced from the vertical position, comprising the steps of:
-
orienting a first antenna of an above surface device substantially horizontal relative to the ground surface; orienting a second antenna of the surface device substantially vertical to the ground surface; calculating a ratio using signal strengths of a signal received from the subsurface beacon by the first antenna and by the second antenna comparing the ratio to a predetermined number and identifying the received signal as a true signal if the ratio exceeds the predetermined number, and identifying the received signal as a ghost signal if the ratio is less than the predetermined number; and using the true surface signal to provide the true position of the beacon along the path of movement thereof. - View Dependent Claims (2, 3, 4, 5, 6)
-
-
7. Apparatus for locating the position of an underground movable beacon transmitting an electromagnetic dipole signal producing a true surface signal vertically positioned above the beacon, and a ghost surface signal laterally displaced from the vertical position, the apparatus above the ground surface comprising:
-
a first antenna, and a second antenna positioned substantially orthogonal to said first antenna; a sensor to measure an electromagnetic field radiated from the underground beacon and induced as a signal in the first antenna when the first antenna is positioned substantially horizontal to the ground surface and to measure a signal induced in the second antenna from the electromagnetic field of the underground beacon when the second antenna is substantially vertical to the ground surface; means for computing a ratio of the signal strengths measured from the first antenna and the second antenna and for comparing said ratio with a predetermined value; a display; means for indicating on said display a valid signal reception by the first and second antennas when the ratio exceeds a predetermined value; and means for indicating on said display reception of a ghost signal if the ratio is less than the predetermined value. - View Dependent Claims (8)
-
-
9. Apparatus for locating the position of an underground movable beacon transmitting an electromagnetic dipole signal producing a true signal and ghost signals as a function of a horizontal location of the apparatus with respect to the beacon, the apparatus above the ground surface comprising:
-
a first antenna and a second antenna, each being oriented orthogonal to each other, and each for receiving signals transmitted by the underground beacon; a signal processing channel carrying the signals from the first and second antennas without substantially amplifying the signals differently; an analog-to-digital converter for converting the signals received by each said antenna to corresponding digital signals; a processor programmed to receive the digital signals and process said signals to form a ratio, and for comparing the ratio with a threshold value to determine if the received signals correspond to a ghost signal; and said processor programmed to provide a visual indication of a valid depth reading if a result of the comparison is determined not to be a ghost, and to provide a visual indication of an invalid depth reading if a result of the comparison is determined to be a ghost signal. - View Dependent Claims (10, 11)
-
-
12. A method of determining a location of an underground beacon transmitting a dipole pattern having a true surface signal positioned vertically above the beacon and a ghost surface signal laterally displaced from the vertical position, comprising the steps:
-
moving an antenna-equipped sensor laterally about the surface of the ground in the vicinity of the underground beacon to measure a magnetic field transmitted by the beacon; periodically measuring a vertical magnetic field component and a horizontal magnetic field component of the dipole pattern transmitted by the beacon; arithmetically processing pairs of horizontal and vertical components of the magnetic field measured to define a numerical value; comparing the magnitude of the numerical valve with a predefined constant to determine if the numerical value is greater or less than the predefined constant; providing by way of said sensor whether the result of the comparison identifies a true surface signal of the beacon and thus whether the sensor is positioned vertically above the underground beacon; and providing an indication of a ghost surface signal via the sensor if the comparison identified that a true surface signal has not been measured. - View Dependent Claims (13, 14, 15, 16, 17)
-
Specification