An alarm unit includes an apparatus and a method of maximizing the efficiency of an alarm function that wakes up a sleeping user. An image input unit capable of photographing an eye image as a criterion for determining if the user has woken up is mounted on an alarm control apparatus. The image input unit mounted alarm control apparatus photographs a face image of the user, detects the eye region from the face image, and then determines a state of whether the user has woken up or not based on movement of the pupils in the eye region. If it is determined that the user keeps a waking state for a certain time, an alarm function is cancelled. By doing this, the alarm unit can help prevent the user from easily cancelling an alarm and maximize the efficiency of an alarm function that wakes up a sleeping user.

A sleep training device is disclosed comprising certain electronic components, audio components, light-emitting diodes (LEDs), physical switches, a capacitive touch component, or a combination thereof. The sleep training device can have a housing configured to house the electronic components, the audio components, the LEDs, the capacitive touch component, and at least part of the physical switches. The sleep training device can receive an instruction to schedule a sleep program based on a set parameter from another device in wireless communication with the sleep training device, initiate the sleep program once the set parameter is met, and disable at least one of the physical switches and the capacitive touch component when the sleep program is initiated.

In an approach to playing an alarm based on preferred parameters and sleep cycle, identifying a plurality of alarm settings, wherein the plurality of alarm settings includes alarm times; identifying a current time; identifying a range of alarm times from the plurality of alarm settings; in response to determining that individuals are to be monitored for respective sleep statuses based in part on the plurality of alarm settings, identifying the respective sleep statuses, wherein each sleep status comprises one of an awake state and an asleep state; in response to determining at least one respective sleep status is an awake state, determining whether the current time is within the range of alarm times; and in response to determining the first current time is within the range of alarm times, playing an alarm.

Individual wake-up alarm patch. In some embodiments, a wearable patch can include a patch substrate configured to support a plurality of components, and to allow the patch to be attached to a skin of a user. The wearable patch can further include an alert component implemented at least partially within the patch substrate and configured to alert the user based on an alarm control signal. The wearable patch can further include a receiver circuit in communication with the alert component and configured to receive the alarm control signal and induce the alerting of the user by the alert component.

Systems and methods to facilitate sleep are described. In on example, a cognitive alarm clock system for children learns sleep patterns and activities towards recommending sleep schedules and teaching independence. The system may detect the cognitive state of a child based on voice or cry pattern recognition, a time of day or night, scheduled activities, and social context, among other factors. The system may initiate actions to facilitate sleep in response to the cognitive factors. For example, the system may adjust lighting or push back a wakeup time. In another example, the system may use the cognitive analysis to teach children good sleeping habits by making recommendations to facilitate a good night's rest and encourage independence.

Systems and methods to facilitate sleep are described. In on example, a cognitive alarm clock system for children learns sleep patterns and activities towards recommending sleep schedules and teaching independence. The system may detect the cognitive state of a child based on voice or cry pattern recognition, a time of day or night, scheduled activities, and social context, among other factors. The system may initiate actions to facilitate sleep in response to the cognitive factors. For example, the system may adjust lighting or push back a wakeup time. In another example, the system may use the cognitive analysis to teach children good sleeping habits by making recommendations to facilitate a good night's rest and encourage independence.

In an approach to playing an alarm based on preferred parameters and sleep cycle, identifying a plurality of alarm settings, wherein the plurality of alarm settings includes alarm times; identifying a current time; identifying a range of alarm times from the plurality of alarm settings; in response to determining that individuals are to be monitored for respective sleep statuses based in part on the plurality of alarm settings, identifying the respective sleep statuses, wherein each sleep status comprises one of an awake state and an asleep state; in response to determining at least one respective sleep status is an awake state, determining whether the current time is within the range of alarm times; and in response to determining the first current time is within the range of alarm times, playing an alarm.

Techniques are disclosed for facilitating disabling an alarm in response to particular types of activity-indicative data. More specifically, activity-indicative data (e.g., measurements obtained by an electronic device) can be detected prior to a preset alarm time. Upon determining, based on the activity-indicative data, that a wakefulness condition is satisfied, the alarm can be disabled such that the alarm stimuli is not to be presented at the preset alarm time.

Embodiments for implementing intelligent alarm sound control by a processor. A targeted entity may be isolated for a generated sound to be delivered, while noise cancellation is simultaneously provided to prevent an alternative entity from being disturbed by the isolated sound.

An alarm unit includes an apparatus and a method of maximizing the efficiency of an alarm function that wakes up a sleeping user. An image input unit capable of photographing an eye image as a criterion for determining if the user has woken up is mounted on an alarm control apparatus. The image input unit mounted alarm control apparatus photographs a face image of the user, detects the eye region from the face image, and then determines a state of whether the user has woken up or not based on movement of the pupils in the eye region. If it is determined that the user keeps a waking state for a certain time, an alarm function is cancelled. By doing this, the alarm unit can help prevent the user from easily cancelling an alarm and maximize the efficiency of an alarm function that wakes up a sleeping user.