Eddy current error-reduced AC magnetic position measurement system
First Claim
1. A device for measuring the position of receiver antennas relative to transmitter antennas comprising:
- a) transmitter antenna means comprising at least two aparallel antennas adapted to generate at least two AC magnetic field vectors, said fields exhibiting at least two frequency components;
b) receiver means comprising at least two aparallel sensors adapted to detect said AC magnetic field vectors;
c) a first number of transmitter antennas multiplied by a second number of receiver sensors being at least equal to a total number of degrees of freedom of a desired measurement of position of the receiver means relative to the transmitter antennas;
d) signal processing means for ascertaining magnitude of detected AC magnetic field vectors, said signal processing means computing magnitudes of at least two detected AC magnetic field vectors with relative values of phase separated components of said field vectors being employed by said signal processing means to correct detected said AC magnetic field vectors to substantially eliminate position errors caused by eddy current distortion.
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Accused Products
Abstract
A device is disclosed for measuring the position (location and orientation) in the six degrees of freedom of a receiving antenna with respect to a transmitting antenna utilizing multiple frequency AC magnetic signals. The transmitting component consists of two or more transmitting antenna of known location and orientation relative to one another. The transmitting antenna are driven simultaneously by an AC excitation, with each antenna occupying one or more unique positions in the frequency spectrum. The receiving antennas measure the transmitted AC magnetic field plus distortions caused by conductive metals. A computer then extracts the distortion component and removes it from the received signals providing the correct position and orientation output to a high degree of accuracy.
580 Citations
31 Claims
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1. A device for measuring the position of receiver antennas relative to transmitter antennas comprising:
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a) transmitter antenna means comprising at least two aparallel antennas adapted to generate at least two AC magnetic field vectors, said fields exhibiting at least two frequency components;
b) receiver means comprising at least two aparallel sensors adapted to detect said AC magnetic field vectors;
c) a first number of transmitter antennas multiplied by a second number of receiver sensors being at least equal to a total number of degrees of freedom of a desired measurement of position of the receiver means relative to the transmitter antennas;
d) signal processing means for ascertaining magnitude of detected AC magnetic field vectors, said signal processing means computing magnitudes of at least two detected AC magnetic field vectors with relative values of phase separated components of said field vectors being employed by said signal processing means to correct detected said AC magnetic field vectors to substantially eliminate position errors caused by eddy current distortion. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A device for measuring the position of receiver antennas relative to transmitter antennas comprising:
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a) transmitter antenna means comprising at least two aparallel antennas adapted to generate at least two AC magnetic field vectors, through frequency division multiplexing with at least two frequency components;
b) drive means for driving each of said aparallel antennas with at least one unique frequency, said drive means driving said antennas either simultaneously or sequentially, with a different unique frequency being used for each different axis at any given instant in time;
c) receiver means comprising at least two aparallel sensors adapted to detect said AC magnetic vectors;
d) a first number of transmitter antennas times a second number of receiver sensors being at least equal to a total number of degrees of freedom of a desired quantitative measurement of position of a receiver sensor relative to said transmitter antennas;
e) signal processing means for ascertaining magnitude of detected AC magnetic field vectors, said signal processing means computing the magnitudes of at least two detected AC magnetic vectors comprising at least two frequencies, with relative values of phase separated components of said vectors being used to deduce a compensation coefficient, said compensation coefficient being used to quantitatively correct said detected AC magnetic field vectors to substantially eliminate amplitude errors caused by eddy current distortion. - View Dependent Claims (12, 13, 14, 15)
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16. A method of measuring the position of receiver antennas relative to transmitter antennas including the steps of:
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a) providing transmitter antenna means comprising at least two aparellel antennas adapted to generate at least two AC magnetic field vectors, said fields exhibiting at least two frequency components;
b) providing receiver means comprising at least two aparallel sensors adapted to detect said AC magnetic field vectors;
c) driving said transmitter means to generate said at least two magnetic field vectors;
d) receiving signals related to said vectors at said receiver means;
e) providing signal processing means for ascertaining magnitude of detected signals;
f) computing, with said signal processing means, magnitudes of at least two detected AC magnetic field vectors, relative values of phase separated components of said vectors being obtained;
g) calculating from said relative values a compensation coefficient; and
h) said signal processing means employing said compensation coefficient to correct vectors to compensate for eddy current distortion. - View Dependent Claims (17, 18, 19)
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20. A device for measuring the position of receiver antennas relative to transmitter antennas comprising:
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a) magnetic field transmitting means for transmitting magnetic field components at desired frequencies, said transmitting means transmitting a plurality of distinct frequencies;
b) magnetic field receiving means sensitive to said transmitted field components and outputting a signal to be operated on by a signal processing means responsive to receipt of said field components;
c) said signal processing means provided for ascertaining magnitude of detected magnetic field vectors, said signal processing means computing magnitudes of received magnetic field vectors, said magnetic field vectors comprising a plurality of frequencies, said signal processing means utilizing relative values of phase separated components of said field vectors to correct detected said magnetic field vectors to substantially eliminate errors caused by eddy current distortion. - View Dependent Claims (21, 22, 23, 24, 25, 26, 27)
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28. A method of measuring the position of receiver antennas relative to transmitter antennas in a space including the steps of:
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a) providing transmitter antenna means comprising at least two aparallel antennas adapted to generate at least two AC magnetic field vectors, said fields exhibiting at least two frequency components;
b) providing receiver means comprising at least two aparallel sensors adapted to detect said AC magnetic field vectors;
c) driving said transmitter means to generate said at least two magnetic field vectors;
d) receiving signals related to said vectors at said receiver means;
e) providing signal processing means for ascertaining magnitude of detected signals;
f) computing, with said signal processing means, magnitudes of at least two detected AC magnetic field vectors, relative values of phase separated components of said vectors being obtained;
g) determining a compensation coefficient by measuring a phase shift angle Θ
of eddy currents generated by metals in or adjacent said space, said compensation coefficient comprising tan Θ
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h) said signal processing means employing said compensation coefficient to correct vectors to compensate for eddy current distortion. - View Dependent Claims (29, 30, 31)
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Specification