Magnetic sensor system for fast-response, high resolution, high accuracy, three-dimensional position measurements
First Claim
1. A method for determining the position, velocity and acceleration of an object, comprising:
- providing a three dimensional fixed reference frame of known dimensions;
providing an object, the position, velocity and acceleration of which are to be measured;
generating electrical current from an oscillator;
delivering said current from said oscillator to a power amplifier;
directing said amplified current firm said amplifier to a plurality of transmitters;
generating a magnetic field from said transmitters in said reference frame;
receiving said magnetic field signal from said transmitters into at least one receiver;
demodulating and amplifying said received magnetic field signal into magnetic field components from said receiver signal, wherein said output from said amplifier is proportional to said magnetic field components;
applying an extended Kalman filter utilizing a mathematical algorithm to said demodulated and amplified signal to calculate the position, velocity and acceleration of said object.
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Accused Products
Abstract
The position, orientation, velocity and acceleration of remote sensors is determined using magnetic fields. Multiple, arbitrarily oriented magnetic field transmitters are placed in one reference frame (source reference frame), and multiple, arbitrarily oriented magnetic field receivers are placed in a second reference frame (body reference frame). The spatially varying magnetic fields of the transmitters in the source reference frame are sensed by the magnetic field receivers in the body reference frame. The computer algorithm uses a physics-based extended Kalman filter to resolve the position; orientation, velocity and acceleration of the body relative to the source reference frame. The physics-based extended Kalman filter can accommodate the effects of metal in the source and body reference frames and thus allow the system to measure position, orientation, velocity and acceleration under conditions where eddy currents would normally hinder other magnetic position measuring systems. The Kalman filter also allows the use of multiple transmitters and receivers distributed over an arbitrarily large sensing volume, thereby extending the useful range and accuracy of the system. Further, the Kalman filter allows the use of high-speed measurements with minimal signal averaging, thus extending the useful dynamic response of the system. Moreover, the Kalman filter allows the use of arbitrarily oriented transmitters and receivers, thus increasing the flexibility of the system in many applications.
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Citations
6 Claims
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1. A method for determining the position, velocity and acceleration of an object, comprising:
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providing a three dimensional fixed reference frame of known dimensions;
providing an object, the position, velocity and acceleration of which are to be measured;
generating electrical current from an oscillator;
delivering said current from said oscillator to a power amplifier;
directing said amplified current firm said amplifier to a plurality of transmitters;
generating a magnetic field from said transmitters in said reference frame;
receiving said magnetic field signal from said transmitters into at least one receiver;
demodulating and amplifying said received magnetic field signal into magnetic field components from said receiver signal, wherein said output from said amplifier is proportional to said magnetic field components;
applying an extended Kalman filter utilizing a mathematical algorithm to said demodulated and amplified signal to calculate the position, velocity and acceleration of said object. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification