Inertial Sensor Kinematic Coupling
First Claim
1. A method of measuring the motion of an object composed of multiple segments connected by joints via the estimation of the 3D orientation of the object segments relative to one another, without dependence on the Earth magnetic field as a reference for heading, the method comprising:
- applying a plurality of inertial sensor units to respective ones of the multiple segments;
subjecting the joint to an acceleration;
calculating the relative orientation of each segment with respect to each other based on data from the sensor units; and
using the orientations of the segments to form an estimation of the 3D orientation of the object segments relative to one another without using the local magnetic field as a reference for heading.
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Accused Products
Abstract
A method is disclosed for measuring the motion of an object, composed of multiple segments connected by joints, via the estimation of the 3D orientation of the object segments relative to one another without dependence on a magnetic field as a reference for heading. The method includes first applying a plurality of inertial sensor units to the segments of the object, e.g., a user thigh, shank, foot, etc. Next an approximation of the distance between each inertial sensor unit and at least one adjacent joint is provided and the joint is subjected to an acceleration, e.g., as the user takes a step or two. The relative orientations of the segments are calculated and the orientations are used to form an estimation of the 3D orientation of the object segments relative to one another without using the local magnetic field as a reference for heading.
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Citations
14 Claims
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1. A method of measuring the motion of an object composed of multiple segments connected by joints via the estimation of the 3D orientation of the object segments relative to one another, without dependence on the Earth magnetic field as a reference for heading, the method comprising:
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applying a plurality of inertial sensor units to respective ones of the multiple segments; subjecting the joint to an acceleration; calculating the relative orientation of each segment with respect to each other based on data from the sensor units; and using the orientations of the segments to form an estimation of the 3D orientation of the object segments relative to one another without using the local magnetic field as a reference for heading. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A computer-readable medium having thereon computer-executable instructions for measuring the motion of an object composed of multiple segments connected by joints via the estimation of the 3D orientation of the object segments relative to one another, without dependence on the Earth magnetic field as a reference for heading, the object having a plurality of inertial sensor units affixed thereto upon respective ones of the multiple segments, the computer-executable instructions comprising:
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instructions for receiving data from one or more of the inertial sensor units indicating that that one or more joints have been subjected to acceleration; instructions for calculating the relative orientation of each segment with respect to each other based on the received data from the sensor units; and instructions for using the orientations of the segments to form an estimation of the 3D orientation of the object segments relative to one another without using the local magnetic field as a reference for heading. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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Specification