6-DOF subject-monitoring device and method
DCFirst Claim
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1. A method of monitoring a subject during a monitoring period, said method comprising the steps of:
- (a) attaching at least one array of accelerometer modules to at least one body-segment of the subject, the accelerometer modules having an aggregate of at least six axes of measurement;
(b) positioning the subject in at least three substantially stationary calibration poses, the calibration poses being sufficiently different from one another to produce appreciable differences in acceleration signals produced by the array of step (a);
(c) acquiring acceleration signals from the array of step (a) for each of the calibration poses of step (b), said acceleration signals representing the accelerations of the body-segment relative to each of the x, y, and z-axes of an anatomical reference frame;
(d) averaging the acceleration signals acquired at step (c) to minimize the effects of noise and involuntary motion;
(e) acquiring a gravity vector value from the averaged acceleration signals obtained at step (d);
(f) applying the gravity vector value acquired at step (e) to the acceleration signals obtained at step (c) to obtain a correction factor for correcting the orientation of each axis of measurement relative to the anatomical reference-frame;
(g) acquiring from the array of step (a) acceleration signals representing the accelerations of the body-segment movements relative to each of the x, y, and z—
axes of an anatomical reference-frame;
(h) processing the acceleration signals acquired at step (g) to obtain 6-DOF data;
(i) processing the 6-DOF data obtained at step (h) by incorporating the correction factor obtained at step (f) to obtain information regarding the body-segment movement with respect to the x, y, and z-axes of an inertial reference-frame; and
(j)) displaying the body-segment movement information obtained at step (i).
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Abstract
The present invention comprises novel methods and devices for monitoring a subject by acquiring reliable and accurate 6-DOF data regarding the subject, and by using those data to obtain information about the subject'"'"'s movements in three-dimensional space. Information regarding the subject'"'"'s movements is, optionally, combined with information regarding the subject'"'"'s physiological status so that comprehensive knowledge regarding the subject may be acquired by those monitoring the subject.
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Citations
15 Claims
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1. A method of monitoring a subject during a monitoring period, said method comprising the steps of:
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(a) attaching at least one array of accelerometer modules to at least one body-segment of the subject, the accelerometer modules having an aggregate of at least six axes of measurement; (b) positioning the subject in at least three substantially stationary calibration poses, the calibration poses being sufficiently different from one another to produce appreciable differences in acceleration signals produced by the array of step (a); (c) acquiring acceleration signals from the array of step (a) for each of the calibration poses of step (b), said acceleration signals representing the accelerations of the body-segment relative to each of the x, y, and z-axes of an anatomical reference frame; (d) averaging the acceleration signals acquired at step (c) to minimize the effects of noise and involuntary motion; (e) acquiring a gravity vector value from the averaged acceleration signals obtained at step (d); (f) applying the gravity vector value acquired at step (e) to the acceleration signals obtained at step (c) to obtain a correction factor for correcting the orientation of each axis of measurement relative to the anatomical reference-frame; (g) acquiring from the array of step (a) acceleration signals representing the accelerations of the body-segment movements relative to each of the x, y, and z—
axes of an anatomical reference-frame;(h) processing the acceleration signals acquired at step (g) to obtain 6-DOF data; (i) processing the 6-DOF data obtained at step (h) by incorporating the correction factor obtained at step (f) to obtain information regarding the body-segment movement with respect to the x, y, and z-axes of an inertial reference-frame; and (j)) displaying the body-segment movement information obtained at step (i). - View Dependent Claims (2)
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3. A method of monitoring respiratory functions of a subject, said method comprising the steps of:
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(a) attaching an accelerometer array to the subject; (b) acquiring from the array of step (a) acceleration signals representative of the subject'"'"'s respiratory movements; and
,(c) processing the acceleration signals to segregate information representing the subject'"'"'s respiratory functions from common-mode noise by applying a least mean squared (LMS) noise cancellation analysis whereby the common-mode noise contained in the acceleration signals is cancelled. - View Dependent Claims (4, 5, 6, 7, 9, 10)
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8. A method of monitoring a subject during a monitoring period, comprising the steps of:
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(a) attaching at least one accelerometer module to at least one body-segment of the subject; (b) acquiring from the acceleration module attached at step (a) acceleration signals representing the accelerations of the body-segment relative to each of the x, y, and z-axes of an (c) processing the acceleration signals acquired at step (b) to obtain six degrees of freedom (627 DOF) body-segment movement information descriptive of the movements of the body segment with respect to each of the x, y, and z-axes of an inertial reference-frame; (d) acquiring at least one type of physiological data regarding the subject; (e) processing the physiological data acquired at step (d) to obtain physiological information regarding the subject; (f) synchronizing the 6-DOF body-segment movement information obtained at step (c) with the physiological information obtained at step (e) to obtain synchronized 6-DOF body-segment movement information and physiological information; and
,(g) displaying said synchronized 6-DOF body-segment movement information and physiological information obtained at step (f) in at least one format comprehensible to humans.
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11. A method of monitoring the respiratory functions of a subject, said method comprising the steps of:
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(a) attaching at least one accelerometer module to the posterior side of the subject'"'"'s body such that the output of said posterior accelerometer module represents acceleration signals in which the posterior medio-lateral components of the subject'"'"'s movements are largely cancelled; (b) attaching at least on anterior accelerometer module to the anterior side of subject'"'"'s body such that the output of said anterior accelerometer module represents acceleration signals in which the anterior medio-lateral components of the subject'"'"'s movements are largely cancelled; (c) acquiring the outputs of the posterior accelerometer module attached in step (a); (d) acquiring the outputs of the anterior accelerometer module attached at step (b); and
,(e) processing the outputs acquired at step (c) and step (d) to segregate information representing the subject'"'"'s respiratory movements from motion noise. - View Dependent Claims (12)
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13. A method of monitoring respiratory functions of a subject, said method comprising the steps of:
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(a) acquiring acceleration signals from at least one accelerometer module attached to the subject; (b) processing the acceleration signals obtained at step (a) to obtain anterior-posterior acceleration signals representing anterior-posterior acceleration vectors largely free of medio-lateral acceleration vectors; and (c) extracting from the anterior-posterior acceleration signals obtained at step (b) an acceleration component that is due to breathing. - View Dependent Claims (14)
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15. A subject-monitoring system for monitoring the respiratory function of a subject during a monitoring period, said subject-monitor system comprising:
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(a) an accelerometer means that produces acceleration signals representing the movement of at least one of the subject'"'"'s body segments relative to each of the x, y, and z-axes of a reference-frame; (b) attachment means for attaching said accelerometer means to the subject; (c) an acceleration signal processing means for processing the acceleration signals to yield movement data representative of the anterior-posterior components of the movements of the subject'"'"'s body segment during the monitoring period; and (d) a data processing means for processing the movement data to segregate respiratory function information from motion noise.
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Specification