Three axis magnetometer sensor field alignment and registration
First Claim
1. A method of electronically aligning output signals comprising magnetic field responses of a plurality of three axis magnetic sensors comprising a distributed sensor array subsequent to their deployment, said method comprising the steps of:
- deploying a plurality of three axis magnetic sensors;
sensing output signals comprising magnetic field responses along x, y, and z axes of each of the plurality of sensors;
electronically aligning the x axis of each magnetic sensor with a predefined earth'"'"'s magnetic field by adjusting compensation values of a three axis rotation matrix associated with each sensor such that only the x axis value is nonzero;
electronically aligning the y and z axes of each magnetic sensor by moving a calibrated dipole source having a known magnetic strength and signature along a known path relative to the plurality of sensors and adjusting the rotation matrix of each sensor to get desired magnetic field responses at predetermined magnetic response locations along the path;
repeating the above steps a predetermined number of times until the the desired magnetic field responses are achieved.
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Accused Products
Abstract
An alignment process is applied to each sensor of an array of three axis magnetic sensors to electronically align the three axes of each sensor after the array has been deployed. The alignment process compensates for each sensor not being aligned perfectly with the earth'"'"'s N-S, E-W and vertical magnetic field components. A field registration process is applied to each sensor of the array that uses a dipole moment detection and localization process and the alignment process combined with a known calibrated dipole source to define the shape of the array. The present invention improves the performance of the array of sensors in detecting magnetic anomalies by digitally compensating for sensor-to-sensor nonalignment and magnetic interferers within interfering range. The alignment process electronically aligns the three axes of each of the sensors to gain maximum performance from the sensor array. Using digital signal processing techniques reduces the physical deployment requirements on the sensors and their relative positions. The alignment process allows the use of three axis vector magnetometers in a distributed field with out having to lay each sensor in perfect alignment with the earth'"'"'s three magnetic axis. This simplifies the deployment requirements and allows for maximizing the system performance.
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Citations
6 Claims
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1. A method of electronically aligning output signals comprising magnetic field responses of a plurality of three axis magnetic sensors comprising a distributed sensor array subsequent to their deployment, said method comprising the steps of:
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deploying a plurality of three axis magnetic sensors; sensing output signals comprising magnetic field responses along x, y, and z axes of each of the plurality of sensors; electronically aligning the x axis of each magnetic sensor with a predefined earth'"'"'s magnetic field by adjusting compensation values of a three axis rotation matrix associated with each sensor such that only the x axis value is nonzero; electronically aligning the y and z axes of each magnetic sensor by moving a calibrated dipole source having a known magnetic strength and signature along a known path relative to the plurality of sensors and adjusting the rotation matrix of each sensor to get desired magnetic field responses at predetermined magnetic response locations along the path; repeating the above steps a predetermined number of times until the the desired magnetic field responses are achieved. - View Dependent Claims (2, 3, 4, 6)
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5. A method of determining the relative locations of a plurality of sensors with respect to each other, which sensors comprise an array of three axis magnetic sensors disposed relative to the earth'"'"'s magnetic field, said method comprising the steps of:
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electronically aligning the x, y, and z axes of each sensor of the array with the magnetic axes of the earth'"'"'s magnetic field, by adjusting a rotation matrix associated with output signal derived from each sensor until a desired magnetic field response is achieved at predetermined magnetic response locations associated with the array of sensors; moving a calibrated dipole source having a known magnetic strength and signature along a known path relative to the array of sensors that moves through a plurality of magnetic response locations that have predetermined magnetic response values associated therewith that correspond to the calibrated dipole source; measuring the field strength generated by the calibrated dipole source as it moves along the path at each sensor location; computing the relative ranges to the magnetic response locations from adjacent sensor locations; and computing the relative locations of the plurality of sensors with respect to each other using the relative ranges to the magnetic response locations.
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Specification