Method and apparatus for position and orientation measurement using a magnetic field and retransmission
First Claim
1. A magnetic position and orientation measurement system comprising:
- (a) an object, the position and orientation of which are to be measured;
(b) retransmitter means attached to said object in predetermined position and orientation with respect thereto; and
(c) electrical circuitry means including;
(i) transmitter means for transmitting a magnetic field at a resonant frequency of said retransmitter means;
(ii) receiver means for receiving a magnetic field retransmitted by said retransmitter means;
said receiver means converting said magnetic field into a proportional voltage; and
(iii) calculating means for receiving voltages from said receiver means related to said magnetic field and, therefrom, calculating the position (x, y, z) and orientation (ψ
, θ
, φ
) in six degrees of freedom of said retransmitter means and said object.
1 Assignment
0 Petitions
Accused Products
Abstract
Disclosed herein are method and apparatus for position and orientation measurement using a magnetic field and retransmission thereof. In a first embodiment, three coils are deployed as a three-axis antenna. A magnetic field is transmitted sequentially from the three coils each of which coil comprises the transmitter and receiver. Three passive resonant circuits are used as retransmitters and attached to an object the position and orientation of which are to be measured. The three coils, one from each of the retransmitters, are deployed as a three-axis antenna. In a second embodiment of the present invention, the three coils mentioned above with reference to the first embodiment are deployed merely as a three-axis receiver. As such, a separate coil is provided for the purpose of transmission. The three-axis retransmitter is attached to the object, the position and orientation of which are to be determined. In a third embodiment of the present invention, a transmitter coil is provided as well as a single resonant circuit retransmitter. In conjunction with these coils, nine coils are deployed as three-axis antennas which operate as receivers to receive the retransmissions from the retransmitter which is attached to the object and the thereby enable determination of the position and orientation of the object.
458 Citations
25 Claims
-
1. A magnetic position and orientation measurement system comprising:
-
(a) an object, the position and orientation of which are to be measured; (b) retransmitter means attached to said object in predetermined position and orientation with respect thereto; and (c) electrical circuitry means including; (i) transmitter means for transmitting a magnetic field at a resonant frequency of said retransmitter means; (ii) receiver means for receiving a magnetic field retransmitted by said retransmitter means;
said receiver means converting said magnetic field into a proportional voltage; and(iii) calculating means for receiving voltages from said receiver means related to said magnetic field and, therefrom, calculating the position (x, y, z) and orientation (ψ
, θ
, φ
) in six degrees of freedom of said retransmitter means and said object. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
-
-
11. A method of magnetically measuring the position and orientation of an object including the steps of:
-
(a) placing an object in a defined space; (b) attaching a retransmitter means to the object in a predetermined position and orientation with respect thereto; (c) placing a plurality of receiver coils in said space at predetermined locations therein; (d) transmitting a magnetic field at a resonant frequency of said retransmitter means; (e) retransmitting said magnetic field with said retransmitter means; (f) receiving said retransmitted magnetic field with said receiver coils; and (g) calculating the position and orientation of said object from voltages created over said receiver coils by said retransmitted magnetic field. - View Dependent Claims (12, 13, 14)
-
-
15. A magnetic position and orientation measurement system comprising:
-
(a) an object, the position and orientation of which are to be measured; (b) retransmitter means attached to said object in predetermined position and orientation with respect thereto; and (c) electrical circuitry means including; (i) transmitter means for transmitting a magnetic field at a resonant frequency of said retransmitter means; (ii) receiver means for receiving a magnetic field retransmitted by said retransmitter means; (iii) said receiver means converting said magnetic field into a proportional voltages; (iv) calculating means for receiving voltages from said receiver means related to said magnetic field and, therefrom calculating the position (x, y, z) and orientation (ψ
, θ
, φ
) in six degrees of freedom of said retransmitter means and said object;(d) further wherein said transmitter means and receiver means are combined in coil means comprising three substantially mutually orthogonal coils, each said coil comprising a combined transmitter and receiver; (e) each coil having electrically connected thereto oscillating means for placing a voltage across each coil at a predetermined frequency different from the predetermined frequencies of voltages placed across others of said coils; (g) said transmitter means comprising three retransmitter circuits mounted together in substantially mutually orthogonal relation, each retransmitter circuit being designed to resonate at only one of said predetermined frequencies different from the predetermined frequencies causing respective others of said retransmitter circuits to resonate, whereby each of said coils is operable to cause only a respective one of said retransmitter circuits to resonate.
-
-
16. A magnetic position and orientation measurement system comprising:
-
(a) an object, the position and orientation of which are to be measured; (b) retransmitter means attached to said object in predetermined position and orientation with respect thereto; and (c) electrical circuit means including; (i) transmitter means for transmitting a magnetic field at a resonant frequency of said retransmitter means; (ii) receiver means for receiving a magnetic field retransmitted by said retransmitter means; (iii) said receiver means converting said magnetic field into a proportional voltage; (iv) calculating means for receiving voltages from said receiver means related to said magnetic field and, therefrom calculating the position (x,y,z) and orientation (ψ
, θ
, φ
) in six degrees of freedom of said retransmitter means and said object;(d) said transmitter means comprising a single transmitter coil and said receiver means comprising three substantially mutually orthogonal receiving coils; (e) said transmitter means including control means enabling switching between a plurality of predetermined frequencies corresponding to the number of receiving coils. - View Dependent Claims (17, 18)
-
-
19. A magnetic position and orientation measurement system comprising:
-
(a) a first object, the position and orientation of which are to be measured; (b) first retransmitter means attached to said object in predetermined position and orientation with respect thereto; and (c) electrical circuitry means including; (i) transmitter means for transmitting a magnetic field at a resonant frequency of said retransmitter means; (ii) receiver means for receiving a magnetic field retransmitted by said retransmitter means; (iii) said receiver means converting said magnetic field into a proportional voltage; (iv) calculating means for receiving voltages from said receiver means related to said magnetic field and, therefrom calculating the position (x,y,z) and orientation (ψ
, θ
, φ
) in six degrees of freedom of said transmitter means and said object;(d) further wherein the position and orientation of a second object may be determined by attachment of a second retransmitter means having a second resonant frequency different from the resonant frequency of said first retransmitter means, said second retransmitter means being attached to said second object in a predetermined position and orientation with respect to said second object; (i) said transmitter means being adjustable to transmit a magnetic field at the resonant frequency of said second retransmitter means; (ii) said receiver means receiving a magnetic field retransmitted by said second retransmitter means; and (iii) said calculating means being adapted to receive signals from said receiver means related to the magnetic field retransmitted by said second retransmitter means and, therefrom calculating the position and orientation of said second retransmitter means and said second object; (e) said transmitter means comprising a single transmitter coil and said receiver means comprises three substantially mutually orthogonal coils; and (f) further wherein said transmitter means includes control means enabling switching between a plurality of predetermined frequencies corresponding to the number of receiving coils. - View Dependent Claims (20)
-
-
21. A magnetic position and orientation measurement system comprising:
-
(a) an object, the position and orientation of which are to be measured; (b) retransmitter means attached to said object in predetermined position and orientation with respect thereto; and (c) electrical circuitry means including; (i) transmitter means for transmitting a magnetic field at a resonant frequency of said retransmitter means; (ii) receiver means for receiving a magnetic field retransmitted by said retransmitter means; (iii) said receiver means converting said magnetic field into a proportional voltage; (iv) calculating means for receiving voltages from said receiver means related to said magnetic field and, therefrom calculating the position (x,y,z) and orientation (ψ
, θ
, φ
) in six degrees of freedom of said retransmitter means and said object;(d) said transmitter means comprising a single transmitter coil and said receiver means comprising three three-axis receivers, each said receiver means comprising three receiver coils mounted in substantially mutually orthogonal relation; (e) said retransmitter means comprising a single retransmitter circuit designed to resonate at a single frequency, said transmitter means including oscillator means controlled by said calculating means to place a voltage across said transmitter coil at the resonant frequency of said retransmitter circuit; (f) further wherein a compensation is made for induced voltage in the receiver coils caused by the magnetic field generated by the transmitter alone.
-
-
22. A magnetic position and orientation measurement system comprising:
-
(a) an object, the position and orientation of which are to be measured; (b) retransmitter means attached to said object in predetermined position and orientation with respect thereto; and (c) electrical circuitry means including; (i) transmitter means for transmitting a magnetic field at a resonant frequency of said retransmitter means; (ii) receiver means for receiving a magnetic field retransmitted by said retransmitter means; (iii) said receiver means converting said magnetic field into a proportional voltage; (iv) calculating means for receiving voltages from said receiver means related to said magnetic field and, therefrom, calculating the position (x,y,z) and orientation (ψ
, θ
, φ
) in six degrees of freedom of said retransmitter means and said object;(d) wherein the position and orientation of a further object may be determined by attachment of a further retransmitter having a resonant frequency different from the resonant frequency of said retransmitter; (i) said transmitter means being adjustable for transmitting a magnetic field at the resonant frequency of said further retransmitter means; (ii) said receiver means being adapted to receive a magnetic field retransmitted by said further retransmitter means; and (iii) said calculating means being adapted to receive signals from said receiver means related to the magnetic field retransmitted by said further retransmitter means and, therefrom calculating the position and orientation of said further retransmitter means and said further object; (e) said transmitter means comprising a single transmitter coil and said receiver means comprising three three-axis receivers, each said receiver means comprising three coils mounted in substantially mutually orthogonal relation; (f) said retransmitter means comprising a single retransmitter circuit designed to resonate at a single frequency, said transmitter means including oscillator means controlled by said calculating means to place a voltage across said transmitter coil at the resonant frequency of said retransmitter circuit; and (g) further wherein a compensation is made for induced voltage in the receiver coils caused by the magnetic field generated by the transmitter means alone.
-
-
23. A method of magnetically measuring the position and orientation of an object including the steps of:
-
(a) placing an object in a defined space; (b) attaching a retransmitter means to the object in a predetermined position and orientation with respect thereto; (c) placing a plurality of receiver coils in said space at predetermined locations therein; (d) transmitting a magnetic field at a resonant frequency of said retransmitter means; (e) retransmitting said magnetic field with said retransmitter means; (f) receiving said retransmitted magnetic field with said receiver coils; and (g) calculating the position and orientation of said object from voltages created over said receiver coils by said retransmitted magnetic field; (h) said receiver coils being mounted in substantially mutually orthogonal relation and further including the step of compensating for any inadvertant non-orthogonalities in said receiver coils prior to said calculating step. - View Dependent Claims (24, 25)
-
Specification