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Consumer Sleep Technology
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Patent US10055964
Issued 2018-08-21
Methods And Apparatus For Monitoring Alertness Of An Individual Utilizing A Wearable Device And Providing Notification
Methods and apparatus for monitoring fatigue and notifying an individual are described. The individual may be an operator of a vehicle, equipment, or machine, a student, or other person that may experience fatigue. Motion of the individual is monitored to detect a predescribed motion in response to a stimulus to first determine a base responsiveness profile. Afterwards, a current responsiveness profile is determined based on a prescribed motion in response to a stimulus, and if the current responsiveness profile exceeds a predetermined threshold of the base responsiveness profile, a notification is issued to the individual and, optionally, another person such as an employer, teacher, or parent.
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- 1. A wearable apparatus for monitoring fatigue and notifying a user, the wearable apparatus comprising:
sensors configured to measure biomarkers of the user; a notification generator configured to generate a warning to the user in response to receipt of a signal; a processor coupled to the sensors and the notification generator, the processor configured to:
obtain biomarker measurements from the sensors;
generate a personal circadian rhythm for the user, and the position of the user along that circadian rhythm, using the measured biomarkers;
identify a baseline risk level for the user by assessing the personal circadian rhythm of the user and the position of the user along that personal circadian rhythm;
determine a sleep drive of the user based upon continual or periodic sensor measurements, wherein sleep and wakefulness cycles of the user are derived from actigraphy data obtained from the sensors;
generate a mask event of the personal circadian rhythm based upon changes in body position or activity of the user;
remove the mask event from a personal circadian rhythm estimate by scaling data from the circadian rhythm to correct for body position as measured by the sensors and averaging the circadian rhythm data in a testing period;
scale the circadian rhythm data to generate corrected data for an activity of the user during the testing period as measured by the sensors;
generate a more accurate estimate of the personal circadian rhythm based on the corrected data;
send the signal to the notification generator when the baseline risk level is in a predetermined range; and
a support configured to support the sensors, notification generator, and processor on the body of the user.
- 5. A method of monitoring alertness of a user, comprising:
positioning a wearable apparatus on the user's body, wherein the apparatus is configured to measure one or more biomarkers of the user selected from the group consisting of skin temperature, heart rate, and galvanic skin response; correlating the one or more biomarkers to establish an estimated personal circadian rhythm for the user; determining a position of the user within the user's estimated personal circadian rhythm based on the detected changes in the one or more biomarkers of the user over time; determining, based on the estimated personal circadian rhythm of the user and the position of the user along the estimated personal circadian rhythm, an alertness level of the user; determining a sleep drive of the user based upon continual or periodic sensor measurements, wherein sleep and wakefulness cycles of the user are derived from actigraphy data obtained from sensors; generating a mask event of the estimated personal circadian rhythm based upon changes in body position or activity of the user; removing the mask event from the estimated personal circadian rhythm by scaling data from the circadian rhythm to correct for body position as measured by the sensors and averaging circadian rhythm data in a testing period; scaling the circadian rhythm data to generate corrected data for an activity of the user during the testing period as measured by the sensors; and generating a more accurate personal circadian rhythm estimate based on the corrected data.
- 9. A method for monitoring fatigue and notifying a user, comprising:
affixing on a body of the user an apparatus comprising:
sensors and processors configured to detect and monitor biomarkers of the user,
wherein the biomarkers are selected from the group consisting of skin temperature, heart rate, and galvanic skin response; and
a notification generator;
generating an estimated personal circadian rhythm for the user based upon measured biomarkers; determining a dynamic risk level for the user based on the estimated personal circadian rhythm of the user, and a position of the user along that estimated personal circadian rhythm; determining a sleep drive of the user based upon continual or periodic sensor measurements, wherein sleep and wakefulness cycles of the user are derived from actigraphy data obtained from the sensors; generating a mask event of the estimated personal circadian rhythm based upon changes in body position or activity of the user; removing the mask event from the estimated personal circadian rhythm by scaling data from the circadian rhythm to correct for body position as measured by the sensors and averaging circadian rhythm data in a testing period; scaling the circadian rhythm data to generate corrected data for an activity of the user during the testing period as measured by the sensors; generating a more accurate personal circadian rhythm estimate based on the corrected data; and sending a signal to the notification generator when an identified risk level is in a predetermined range such that the notification generator alerts the user, a third party of the identified risk level, or both.
