Disclosed in the present specification is a wearable terminal for resolving limitation of a narrow display. The wearable terminal, according to the present specification, comprises: a band to be worn on a main body and the wrist; a display unit provided on the main body; and a control unit for controlling so that the content of an event is displayed on the display unit when the event occurs, wherein the control unit can run a normal mode and a special mode depending on the situation of a user, and is capable of controlling so that the content of the event is displayed on the display unit according to the situation of the user when the event has occurred in the special mode.

A display device is configured such that a through-hole extends through a liquid crystal panel and a light guide plate, a fastener for coupling the hands of a watch is coupled to the through-hole, and the formation of a dark region is prevented due to interference between the fastener and light from a light source around the through-hole. At least one flat side surface for minimizing interference with the light from the light source is provided on the fastener, whereby uniform luminance is provided around the through-hole.

A device displays a clock face in response to receiving a request to display a clock face. In accordance with a determination that a respective graphical element is to be displayed at a respective location on the clock face, the clock face includes a plurality of analog-dial graphical elements corresponding to respective units of time, where the plurality of analog-dial graphical elements includes a first analog-dial graphical element that occupies a first position and has a first size. In accordance with a determination that the respective graphical element is not to be displayed at a respective location on the clock face, the clock face includes the plurality of analog-dial graphical elements corresponding to the respective units of time, and the first analog-dial graphical element of the plurality of analog-dial graphical elements occupies a second position and/or has a second size. In some embodiments, clock faces are reordered.

An electronic device, such as a watch, has a housing to which a carrier is attached. The carrier has a first surface interior to the electronic device, and a second surface exterior to the electronic device. A set of electrodes is deposited on the exterior surface of the carrier. An additional electrode is operable to be contacted by a finger of a user of the electronic device while the first electrode is positioned against skin of the user. The additional electrode may be positioned on a user-rotatable crown of the electronic device, on a button of the electronic device, or on another surface of the housing of the electronic device. A processor of the electronic device is operable to determine a biological parameter of the user based on voltages at the electrodes. The biological parameter may be an electrocardiogram.

An information terminal is used with a wrist information device. The information terminal includes a position measurement module, communication circuit, a memory, and a processor. The position measurement module obtains position information. The communication circuit communicates with the wrist information device. The processor obtains information about an operation of a clock function input into the wrist information device during establishment of connection of the communication, obtains the position information from the position measurement module, and stores, in the memory, the position information and the information about the operation of the clock function in association with each other.

Disclosed is an electronic device including a housing that includes a first conductive member disposed on a first surface facing a first direction and a second conductive member disposed adjacent to a second surface facing a second direction opposite to the first direction, a nonconductive member that is located between the first conductive member and the second conductive member and forms part of the housing, a printed circuit board (PCB), a communication circuit that is disposed on the PCB and is electrically connected with the first conductive member and the second conductive member, and a ground part that is electrically connected with at least one of the first conductive member and the second conductive member. The communication circuit feeds the first conductive member and the second conductive member and transmits/receives a signal through the first conductive member and the second conductive member.

A liquid crystal display device comprises a display panel, a signal generator, a plurality of wires, and a controller. The display panel includes a plurality of pixel columns, the pixel columns each extending along source lines of the display panel and each having an input end and a plurality of pixels connected to the input end, with the pixels receiving data signal from the input end. The signal generator has a plurality of output ends arranged in a first direction of the signal generator with respect to each other. The wires connect the output ends of the signal generator to the input ends of the pixel columns, respectively. The controller varies voltage waveform of the data signal at the output ends of the signal generator according to location of the output ends of the signal generator.

A time display device includes a display; an operation receiving unit that receives a selection operation of a city by a user; a memory that stores a time piece image and a map image including a plurality of city locations; and a processor, wherein said processor performs: reading out the time piece image and said map image from the memory; identifying one of the city locations in the map image read from the memory as corresponding to a location of the selected city; generating a display image by overlapping the map image including said identified one of the city locations and the timepiece image that is adjusted to indicate a local time of the selected city such that a center of the timepiece image coincides with said identified one of the city locations in the map image; and causing said display image to be displayed on the display.

A wearable device receives user configuration data that provides user-specific information for stored use cases and generates a personalized use case database based on the stored use cases and the user-specific information. The wearable device obtains location, sensor, time, and peripheral state data and detects a meaningful change in a most recent data instance of the location, sensor, time, or peripheral state data over an earlier data instance of the location, sensor, time, and peripheral state data. The wearable device determines if the most recent data instance corresponds to a particular use case in the personalized use case database; presents on a display a new home-screen experience, including multiple application user interfaces for the particular use case, when the most recent data instance corresponds to the particular use case; and changes a hardware state to enable use of the multiple application user interfaces in the new home-screen experience.

Provided are a display method and apparatus, a smart wearable device, and a computer-readable storage medium, the display method being used on the smart wearable device, and the smart wearable device including at least two screen display regions and at least two corresponding audio collection units; when a user is wearing the smart wearable device, the screen display regions are not simultaneously in the same plane. The display method includes according to voice signals collected by all of the audio collection units, determining an audio collection unit nearest a sound source; turning on a screen display region corresponding to the audio collection unit nearest the sound source to display current content.