According to various embodiments, a wearable electronic device includes: a housing including a housing body, a first protrusion, and a first recess, a rim including a rim body and a second protrusion, a plate, a first adhesive portion, a second adhesive portion.

An information processing device includes at least one processor, in which the at least one processor acquires first information related to a first movement state of at least one of an arm and a leg of a user performing a movement, the first movement state on which a movement state of a torso of the user is superimposed, acquires second information related to a second movement state of the torso of the user performing the movement, and generates third information related to a third movement state of the at least one of the arm and the leg of the user based on the first information and the second information.

A processor-based personal electronic device (such as a smartphone) is programmed to automatically respond to data sent by various sensors from which the user's activity may be inferred. One or more alarms on the device may be temporarily disabled when sensor data indicates that the user is asleep. One or more of the sensors may be worn by the user and remote from the device. A wireless communication link may be used by the device to obtain remote sensor data. Data from on-board sensors in the device—such as motion sensors, location sensors, ambient light sensors, and the like—may also be used to deduce the user's current activity. User data (such as calendar entries) may also be used to determine likely user activity and set alarms accordingly. Biometric data from a second, nearby person may also be used to automatically select certain alarm modes on a first person's device.

A processor-based personal electronic device (such as a smartphone) is programmed to automatically respond to data sent by various sensors from which the user's activity may be inferred. One or more alarms on the device may be temporarily disabled when sensor data indicates that the user is asleep. One or more of the sensors may be worn by the user and remote from the device. A wireless communication link may be used by the device to obtain remote sensor data. Data from on-board sensors in the device—such as motion sensors, location sensors, ambient light sensors, and the like—may also be used to deduce the user's current activity. User data (such as calendar entries) may also be used to determine likely user activity and set alarms accordingly. Biometric data from a second, nearby person may also be used to automatically select certain alarm modes on a first person's device.

A computerized watch is described that includes a cover that forms an outer surface of the computerized watch, a screen configured to output graphical information for display, a set of physical watch hands positioned between the cover and the screen and configured to present a time of day. One or more computer processors and a memory comprising instructions. The instructions, when executed, cause the one or more computer processors to responsive to determining that the computerized watch is operating in a time display mode, manipulate the set of physical watch hands such that the set of physical watch hands present the time of day by obscuring a portion of a display region of the screen, and responsive to determining that the computerized watch is not operating in the time display mode, manipulate the set of physical watch hands such that the set of physical hands do not obscure the screen.

The present disclosure discloses a multi-eye analog smart timekeeping apparatus, comprising: a dial, comprising a dial substrate comprising a plurality of view regions; an arm positioned above the dial; a display panel positioned below the dial and comprising a plurality of display regions, each of the display regions corresponding to one of at least two of the view regions;

and a shaft connected to the arm and being through the dial and the display panel. The present disclosure also discloses a method of making a display panel that may be used with the timekeeping apparatus, comprising: providing a first substrate comprising a first area; forming a display layer on the first substrate outside the first area; applying encapsulation material on the first area and around the display layer; sealing the display layer between the first substrate and a second substrate; and drilling a hole in the first area, wherein a size of the hole is smaller than a size of the first area.

A method of a wearable device displaying icons is provided. The method includes displaying a plurality of circular icons comprising a first circular icon located in a center area of a touch display in a first size and a second circular icon located outside of the center area of the touch display in a second size smaller than the first size, and based on a direction of a touch input received on the touch display, moving the plurality of circular icons such that the first circular icon is moved to a first position located outside of the center area of the touch display and the second circular icon is moved from a second position located outside the center area of the touch display to the center area of the touch display and enlarged in size from the second size to the first size.

A method of a wearable device displaying icons is provided. The method includes displaying a plurality of circular icons comprising a first circular icon located in a center area of a touch display in a first size and a second circular icon located outside of the center area of the touch display in a second size smaller than the first size, and based on a direction of a touch input received on the touch display, moving the plurality of circular icons such that the first circular icon is moved to a first position located outside of the center area of the touch display and the second circular icon is moved from a second position located outside the center area of the touch display to the center area of the touch display and enlarged in size from the second size to the first size.

A wearable terminal device capable of wirelessly communicating with a mobile terminal device having a display unit, the wearable terminal device comprising receiving status information of the mobile terminal device from the mobile terminal device when status of the mobile terminal device changes, determining whether or not to select display of the wearable terminal device based on the status information, and controlling the display of the wearable terminal device based on a determination result by the determining.

A wearable electronic device includes: an input module configured to receive a user manipulation for changing a configuration setting value of a main electronic device; and a communication module configured to transmit a control signal for changing a configuration setting value to the main electronic device.