A processing system includes methods to promote sleep. The system may include a monitor such as a non-contact motion sensor from which sleep information may be determined. User sleep information, such as sleep stages, hypnograms, sleep scores, mind recharge scores and body scores, may be recorded, evaluated and/or displayed for a user. The system may further monitor ambient and/or environmental conditions corresponding to sleep sessions. Sleep advice may be generated based on the sleep information, user queries and/or environmental conditions from one or more sleep sessions. Communicated sleep advice may include content to promote good sleep habits and/or detect risky sleep conditions. In some versions of the system, any one or more of a bedside unit 3000 sensor module, a smart processing device, such as a smart phone or smart device 3002, and network servers may be implemented to perform the methodologies of the system.

A motorized furniture according to embodiments of the present invention includes a control unit. The control unit transitions to a first falling asleep operation at second time where the elapse of time since first time, where the sleep of a user of the motorized furniture is detected, is equal to or larger than a first time threshold. The control unit performs a second falling asleep operation when a variation of a signal corresponding to a biological signal of the user in a first period during the first falling asleep operation is smaller than the variation in a first prior period, which exists prior to the first period, during the first falling asleep operation or when the absolute value of a difference between the variation in the first period and the variation in the first prior period is smaller than a first variation threshold. In the second falling asleep operation, the control unit performs at least one of: an operation of decreasing the inclination of a section of the motorized furniture; an operation of decreasing the gap between the height of a head part of a mattress of the motorized furniture and the height of a waist part of the mattress; and an operation of decreasing the difference between the pressure in the head part and the pressure in the waist part. The embodiments provide a motorized furniture capable of offering more comfortable sleep.

A sleep inhibition assembly for inhibiting a driver from falling asleep includes a housing that may be manipulated. A vibration unit is coupled to the housing and the vibration unit vibrates the housing. The vibration unit may be placed in a mouth. Thus, the vibration unit may inhibit a driver from falling asleep.

The present disclosure relates to a method for identifying a user interface. Flow data associated with air flowing in a respiratory therapy system is received. Acoustic data associated with the respiratory therapy system is received. The received flow data and the received acoustic data are analyzed. Based at least in part on the analysis, a mask type for the user interface is determined.

Provided is a method of treating a sleep disorder based on data and an apparatus for performing the method. The method of treating a sleep disorder based on data includes determining, by a sleep disorder treatment apparatus, sleep quality; determining, by the sleep disorder treatment apparatus, user compliance with a first recommended time in bed (R-TIB); and determining, by the sleep disorder treatment apparatus, a second R-TIB on the basis of the sleep quality and the user compliance, wherein the first R-TIB is a sleep time recommended to the user earlier, and the second R-TIB is a sleep time recommended to the user later. The sleep disorder treatment apparatus further controls at least one predetermined supplemental device, including a temperature controller and a haptic actuator, in real time based on the second R-TIB to promote adherence and improve therapeutic outcomes.

The newly discovered retinal ganglion cell photoreceptor melanopsin absent in the central fovea of the eye but distributed throughout the remaining human retinal body provides both non-visual biological/physiological input inducing circadian entrainment, and visual input affecting perceived brightness; this perceived brightness is not the object brightness commonly associated with luminance and perceived color of an object in central view, but the perception of brightness of a whole space or task background. Discussed are improvements to circadian lighting systems based on melanopsin stimulation whereby ambient and/or device background lighting may be temporally tuned over a range of prescribed color temperatures from a first subset of lighting having a higher melanopic content to a second subset of lighting having a lower melanopic content or vice versa in accordance with a desired circadian cycle, and in a manner where net light output is of a constant perceived brightness and color throughout temporal tuning.

Systems and methods for detection and/or intervention of stress episodes such as nightmares during sleep activity or flashbacks or anxiety attacks during waking or sleep activity. In some embodiments, sensors, such as gyroscopes, accelerometers, heart rate sensors, and/or other sensors, may be used for monitoring stress indicators indicative of a user's stress level. The sensed stress indicators may be used to calculate a stress level. If the stress level meets or exceeds a stress level threshold, haptic, audio, visual, and/or other feedback or alerts may be used to draw a user's attention and thus interrupt the stress episode.

A non-transitory computer-readable recording medium stores a driving support program that causes a computer to execute a process including: collecting vital sign information on a user from a vital sign measuring device; generating a drowsiness occurrence time pattern with respect to the user based on the collected vital sign information; and in response to a request in which a driver is specified from a source of the request, providing the drowsiness occurrence time pattern that is generated with respect to the user corresponding to the driver to the source of the request to the source of request or providing alerting information to the driver that is determined according to the drowsiness occurrence time pattern generated with respect to the user corresponding to the driver to the source of request.

Provided are systems, methods, and devices for biomarker shaping and sleep profile enhancement. Systems include a plurality of electrodes configured to be coupled to a brain of a user and configured to obtain a plurality of measurements from the brain of the user, and an interface configured to obtain the plurality of measurements from at least the plurality of electrodes. Systems also include a processing device comprising one or more processors configured to generate a first target sleep profile for the user based, at least in part, on the plurality of measurements and a plurality of biomarkers, the processing device being further configured to generate a plurality of stimulus parameters based, at least in part, on the target profile.

A sleep posture alerting method is provided, wherein the sleep posture of a person is detected. The person is automatically alerted by a stimulus generated by an alerting device when the sleep posture is out of a predetermined body posture range. A stimulus variation is effected by the alerting device.