System and method of biomechanical posture detection and feedback
First Claim
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1. A method of providing postural feedback comprising:
- receiving by a microprocessor at repeated intervals data from a tri-axial accelerometer, the microprocessor and the tri-axial accelerometer comprising a sensor device attached to a user, the sensor device further comprising memory, an actuator, and a power source;
normalizing by the microprocessor the received accelerometer data;
determining by the microprocessor a postural description of the user based on the normalized received accelerometer data,wherein the postural description comprises a current movement state, andwherein determining the postural description based on the normalized received accelerometer data comprises;
computing feature vectors for the normalized received accelerometer data;
quantizing the feature vectors;
assigning the feature vectors to Gaussian distributions,acquiring distribution histograms for multiple movement states; and
comparing the distribution histograms to determine the current movement state from the multiple movement states;
andtriggering by the microprocessor the actuator to output sensory feedback based on the postural description of the user.
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Abstract
A system and method are described herein for a sensor device which biomechanically detects in real-time a user'"'"'s movement state and posture and then provides real-time feedback to the user based on the user'"'"'s real-time posture. The feedback is provided through immediate sensory feedback through the sensor device (e.g., a sound or vibration) as well as through an avatar within an associated application with which the sensor device communicates.
70 Citations
6 Claims
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1. A method of providing postural feedback comprising:
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receiving by a microprocessor at repeated intervals data from a tri-axial accelerometer, the microprocessor and the tri-axial accelerometer comprising a sensor device attached to a user, the sensor device further comprising memory, an actuator, and a power source; normalizing by the microprocessor the received accelerometer data; determining by the microprocessor a postural description of the user based on the normalized received accelerometer data, wherein the postural description comprises a current movement state, and wherein determining the postural description based on the normalized received accelerometer data comprises; computing feature vectors for the normalized received accelerometer data; quantizing the feature vectors; assigning the feature vectors to Gaussian distributions, acquiring distribution histograms for multiple movement states; and comparing the distribution histograms to determine the current movement state from the multiple movement states; and triggering by the microprocessor the actuator to output sensory feedback based on the postural description of the user. - View Dependent Claims (2)
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3. A postural feedback apparatus comprising:
a sensor device configured to be attached on a user, the sensor device comprising; a tri-axial accelerometer; an actuator; and a microprocessor configured to receive data from the tri-axial accelerometer about movement of the user; normalize the received accelerometer data; determine a postural description of the user based on the normalized received accelerometer data, wherein the postural description comprises a current movement state, and wherein the microprocessor configured to determine the postural description of the user based on the normalized received accelerometer data comprises the microprocessor configured to;
compute feature vectors for the normalized received accelerometer data;
quantize the feature vectors;
assign the feature vectors to Gaussian distributions;
acquire estimated distribution histograms for multiple movement states; and
compare the distribution histograms to determine the current movement state from the multiple movement states;and trigger the actuator to output sensory feedback based on the postural description of the user. - View Dependent Claims (4, 5)
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6. A non-transitory computer readable medium having stored thereupon computing instructions comprising:
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a code segment to receive by a microprocessor at repeated intervals data from a tri-axial accelerometer, the microprocessor and the tri-axial accelerometer comprising a sensor device attached to a user, the sensor device further comprising memory, an actuator, and a power source; a code segment to normalize by the microprocessor the received accelerometer data; a code segment to determine by the microprocessor a postural description of the user based on the normalized received accelerometer data; a code segment to trigger by the microprocessor the actuator to output sensory feedback based on the postural description of the user; a code segment to transmit from the microprocessor across an electronic communication connection to a computing device the postural description of the user to be displayed on the computing device as an avatar with an appearance, the appearance of the avatar representing the postural description of the user; and a code segment to transmit from the computing device across a network connection to a cloud server the postural description of the user, the cloud server using the postural description of the user to tailor biofeedback for the user.
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Specification