An apparatus include a housing having a top opening, and a sidewall and a bottom surface defining a cavity. The apparatus includes a display assembly. The display assembly includes an electronic transmissive display layer within the cavity to display an image viewable from the top opening of the housing. The display assembly includes a light collector within the cavity and having an optical opening at the top opening of the housing to collect ambient light. The display assembly includes a light guide layer within the cavity to guide the collected ambient light towards and through the display layer. The apparatus includes a processing device within the cavity to generate data to display using the display layer.

A wearable device includes, as shown in FIG. 8, a light source and a plurality of tactile switches. A plan view of FIG. 8 is a figure of a substrate in a planar view from the normal direction of a display. The position of the light source does not overlap the plurality of tactile switches. Therefore, it is possible to reduce the thickness in a Z-axis direction of the wearable device. It is possible to improve portability of the wearable device.

Disclosed is a smart watch which may comprise: a display unit including a display panel displaying an image and a panel frame supporting the display panel; a rotating member including a rotating plate provided with recesses on an outer peripheral surface of the rotating plate, a rotating shaft having one end connected to a center of the rotating plate to rotate the rotating plate, and a driving motor coupled with the other end of the rotating shaft; a control unit to control the display unit and the rotating member; and a support frame to support the display unit and accommodate the rotating member and the control unit.

An electronic timepiece includes a storage unit and a processor. The storage unit associates and stores local time information with a corresponding geographical position. The local time information corresponds to each of a plurality of predetermined geographical positions. The processor acquires local time information corresponding to a geographical position selected from the plurality of geographical positions, as update information of a predetermined region including the selected geographical position. When update information corresponding to a target position for setting local time is acquired, the processor sets the local time by referring to the acquired update information. When the update information corresponding to a target position for setting local time is not acquired, the processor sets the local time by referring to the local time information.

The present invention concerns a display assembly comprising an organic light-emitting diode display device comprising at least one OLED comprising an emitting stack placed on a transparent substrate, whose back face is placed on the emitting surface of the OLED, and a secondary object to be illuminated, said transparent substrate comprising a front face and at least one side face arranged to light a secondary object.

An electronic timepiece includes a first display unit and a second display unit that display time. A receiving unit receives a time modification command including time information for modifying a first time displayed by the first display unit. A control unit outputs a first change command for automatically changing the first time displayed by the first display unit into a modified time different from a second time displayed by the second display unit based on the received time information, and outputs a second change command for changing the second time displayed by the second display unit into the first time displayed by the first display unit before the first time is changed into the modified time. A display drive unit changes the first time and the second time based on the first change command and the second change command, respectively, from the control unit.

A wristwearable device for displaying travel information using at least one travel information indicator, the wristwearable device including a receiver for receiving data indicative of the travel information from a transmitting device; at least a first actuation mechanism, operatively coupled to the at least one travel information indicator, for rotating the at least one travel information indicator in at least one of a clockwise and counterclockwise direction; a controller, operably coupled to the receiver and the actuation mechanism, for causing the at least first actuation mechanism to rotate the at least one travel information indicator in at least one of the clockwise and counterclockwise direction based on the data received by the receiver; and wherein the position of the at least one travel information indicator conveys information regarding a travel.

A smartwatch device and method. The abstract of the disclosure is submitted herewith as required by 37 C.F.R. 1.72(b). As stated in 37 C.F.R. 1.72(b): A brief abstract of the technical disclosure in the specification must commence on a separate sheet, preferably following the claims, under the heading Abstract of the Disclosure. The purpose of the abstract is to enable the Patent and Trademark Office and the public generally to determine quickly from a cursory inspection the nature and gist of the technical disclosure. The abstract shall not be used for interpreting the scope of the claims. Therefore, any statements made relating to the abstract are not intended to limit the claims in any manner and should not be interpreted as limiting the claims in any manner.

A smartwatch and a control method thereof are disclosed. According to an embodiment, the smartwatch includes a tilt sensor unit configured to sense a tilt of the smartwatch; a display unit configured to display an image; and a processor configured to control the tilt sensor unit and the display unit, wherein, when a front of the display unit is directed in a predetermined direction, the processor is further configured to: acquire, using the tilt sensor unit, a first rotation angle in a first direction when the smartwatch rotates in the first direction based on a rotation axis of the smartwatch and perform a first command corresponding to the first direction when the first rotation angle exceeds a first threshold angle, acquire, using the tilt sensor unit, a second rotation angle in a second direction when the smartwatch rotates in the second direction based on the rotation axis and perform a second command corresponding to the second direction when the second rotation angle exceeds a second threshold angle, and wherein the first direction is an opposite direction of the second direction and the first threshold angle is greater than the second threshold angle.

A smartwatch and a control method thereof are disclosed. According to an embodiment, the smartwatch includes a tilt sensor unit configured to sense a tilt of the smartwatch; a display unit configured to display an image; and a processor configured to control the tilt sensor unit and the display unit, wherein, when a front of the display unit is directed in a predetermined direction, the processor is further configured to: acquire, using the tilt sensor unit, a first rotation angle in a first direction when the smartwatch rotates in the first direction based on a rotation axis of the smartwatch and perform a first command corresponding to the first direction when the first rotation angle exceeds a first threshold angle, acquire, using the tilt sensor unit, a second rotation angle in a second direction when the smartwatch rotates in the second direction based on the rotation axis and perform a second command corresponding to the second direction when the second rotation angle exceeds a second threshold angle, and wherein the first direction is an opposite direction of the second direction and the first threshold angle is greater than the second threshold angle.