Functional jewelry is disclosed. A bracelet includes a plurality of light-emitting diodes (LEDs), a main control unit, and positional and situational sensors, typically including an accelerometer, as well as a decorative, interchangeable fascial layer. The bracelet may also include sensors such as capacitive touch sensors, a microphone, and a color sensor. A radio transceiver within the bracelet is adapted to implement a protocol such as BLUETOOTH® 4.0, and is adapted to allow the bracelet to communicate in peer-to-peer or master-slave mode. Two users can pair their bracelets in person, usually with a gestural trigger, for shared light displays, multi-player games, and other types of interactions. Larger groups can pair temporarily and contextually for multi-user displays and interactions, in an ad hoc network with distributed functions. Real-world interactions are communicated to a social network with profiles linked to the individual bracelets.

A user interface on a computing device can utilize a calendar bar with various portions of the interface, such as a lock screen and home or application screens. The calendar bar can enable the user to view upcoming appointments and determine how much the user has before those appointments. The user can tilt the device or select an appointment to obtain additional information. If the device is unlocked or otherwise accessible, the user can also navigate back and forth between a calendar display and other information, such as past or present actions with respect to the device, and can scroll back in forth in time using any of these displayed portions.

An electronic device is provided which displays an object (body) on a flexible display screen in accordance with a three-dimensional shape of the display screen by utilizing the flexibility of the display screen. An electronic device including a display portion which includes a flexible display device displaying an object on a display screen; a detection portion detecting positional data of a given part of the display screen; and an arithmetic portion calculating a three-dimensional shape of the display screen on the basis of the positional data and computing motion of the object to make the object move according to a given law in accordance with the calculated three-dimensional shape of the display screen.

Disclosed is an electronic device including a touch sensor configured to sense at least one touch on at least two different lateral sides of the electronic device, and a controller configured to determine a state of the electronic device when the electronic device has been gripped, determine a grip pattern based on the sensed at least one touch on the at least two different lateral sides of the electronic device, and perform a function based on the determined grip pattern and state of the electronic device.

Systems, methods, and computer-readable media are provided for generating computer-mediated reality display data based on user instantaneous motion data. A system includes at least one sensor, a mediated reality data source, and a mediated reality display generator that generates displayable mediated reality scene data based on (a) current reality data of the system from the at least one sensor; (b) mediated reality data from the mediated reality data source; and (c) instantaneous motion data of the system from the at least one sensor. In one example the mediated reality display generator generates the displayable mediated reality scene data by generating displayable mediated reality frame data based on the current reality data and the mediated reality data. The operations further include selecting a portion of the displayable mediated reality frame data as the displayable mediated reality scene data based on the instantaneous motion data. The portion that is selected is offset from a center of the displayable mediated reality frame data and is less than a frame size of the displayable mediated reality frame data and the offset is selected based on said instantaneous motion.

According to various examples of the present invention, an electronic device for controlling a plurality of displays can comprise: a first display for displaying a first screen; a second display for displaying a second screen; and a control unit for determining attributes of the first screen and the second screen, for determining whether to display, on a display that does not enter into an idle mode, a screen displayed on a display that enters into the idle mode in correspondence to the entry into the idle mode of either the first display or the second display, and for controlling the first display or the second display such that the first screen or the second screen is displayed thereon. In addition, various other examples are possible.

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 portable electronic device (100) having a touch screen (112) with a floating soft trigger icon (175) for enabling various functions of the electronic device (100), such as bar code reading, capturing RFID data, capturing video and images, calling applications, and/or placing phone calls. The floating trigger icon (175) is displayed on the touch screen (112) to enable easy identification and access of the trigger icon (175). The trigger icon (175) may be selected via application of any one of various unique control gestures (200, 210, 220, 230, 240, 250, 260) to configure the electronic device (100). Based on the selected mode or function of the device (100), the trigger icon (175) may alter its appearance to facilitate use of the device (100). The operation and functionality of the trigger icon (175) may be programmed to customize operation of the device (100).

Methods and apparatus to operate closed-lid portable computers are disclosed. An example portable computer includes a first display on a lid of the portable computer, the first display to be deactivated when the lid is in a closed position; a second display distinct from the first display, the second display to be visible when the lid is in the closed position; instructions; and processor circuitry to execute the instructions to cause activation of the first display in response to a user interaction with the second display while the lid is in the closed position.

A mobile device including various components in communication with one another, the mobile device comprising a flexible housing, flexible display device mounted in the housing, a deformation sensor mounted in the housing and a device controller configured to operate the mobile device responsive to receipt of data input from the flexible display device, wherein the device controller automatically deactivates the processing of at least a portion of data input received of the plurality of data input received from the display device responsive to receiving communication from the deformation sensor detecting a threshold level of deformation of the housing.