Techniques for adjusting a posture of an operating system mode for a touch-enabled computing device based on combinations of user preferences and user input modality signals. Various adjustments to the posture of the operating system mode do not impact whether particular user interface elements are present but rather alter characteristics with which these particular user interface elements are rendered. Posture adjustments to an operating system mode occur based on combinations user input modality signals and user preferences not to enter another mode in which particular user interface elements are no longer displayed within a task bar along a peripheral edge. An object of designing an operating system mode to have multiple different postures with common user interface elements displayed in the task bar while adjusting the characteristics thereof is to preserve the user familiarity across postures while optimizing graphical layouts to accommodate for a current user input modality.

An monitor includes a host and a first display communicatively connected to the host. In a display screen switching method for the monitor, it is detected that a second display is connected, the second display is provided independently of the monitor. It is detected that a display screen switching instruction is received and a display file corresponding to configuration parameters of the second display is read, the display file includes one or more physiological parameters to be displayed, an interface layout and interface elements. Data of the one or more physiological parameters are acquired according to the display file and generating frame data for representing pixel values of pixels on a display interface. The frame data are output to the second display to display data of the one or more physiological parameters.

A gaming device may comprise various components, including a main cabinet, a game controller, and a display assembly. The display assembly may comprise a display panel. The display panel may define a number of planar display regions, where each planar display region is offset from a neighboring planar display region by a respective offset angle so as to display information to a player of the gaming device at different angles. The display assembly may additionally be provided with an electrical connector and/or an attachment mechanism to releasably couple the display assembly to the game cabinet.

In a control method for an electronic apparatus according to the present invention, in which a mobile terminal comprises a camera comprising a plurality of lenses and a first display unit combined to a case, the case comprising a first body where the mobile terminal is accommodated and a second body where a second display unit is arranged, the control method for an electronic apparatus comprises the steps of: displaying first screen information on the second display unit and displaying a preview screen on the first display unit in response to driving of the camera; detecting a pre-set touch input received by the first display unit; executing an expanded preview mode in response to the pre-set touch input, generating a control signal for displaying, on the second display unit, second screen information corresponding to a camera function related to the preview screen of the first display unit, and transmitting the control signal to the second display unit; and while the preview screen of the first display unit is displayed, changing the first screen information of the second display unit to the second screen information in response to the control signal.

Techniques for adjusting a posture of an operating system mode for a touch-enabled computing device based on combinations of user preferences and user input modality signals. Various adjustments to the posture of the operating system mode do not impact whether particular user interface elements are present but rather alter characteristics with which these particular user interface elements are rendered. Posture adjustments to an operating system mode occur based on combinations user input modality signals and user preferences not to enter another mode in which particular user interface elements are no longer displayed within a task bar along a peripheral edge. An object of designing an operating system mode to have multiple different postures with common user interface elements displayed in the task bar while adjusting the characteristics thereof is to preserve the user familiarity across postures while optimizing graphical layouts to accommodate for a current user input modality.

An example method of adjusting a detachable display capsule of a wrist-wearable device to operationally complement a wearable-structure attachment is disclosed. The method includes, while a display capsule is configured to use a default set of display characteristics for operating-system or application-level user interfaces, receiving identifying information for a respective wearable structure, the display capsule being configured to detachably couple to one of a plurality of wearable structures to form a wrist-wearable device. In accordance with a determination that the display capsule should be adjusted based on the identifying information, the method further includes adjusting the display capsule (i) to cease using the first set of display characteristics and (ii) to instead use a customized set of display characteristics associated with the respective wearable structure. The customized set is distinct from the default set and is also used in conjunction with the operating-system or application-level user interfaces.

The electronic device includes a first unit, a second unit, and a latch mechanism part. A latch mechanism part includes a latch member, a housing recess, an urging member, and a first groove portion. The latch member includes a shaft portion extending and urged in a direction intersecting a second side surface, a connection part extending from the shaft portion, and a protrusion provided on the connection part. The latch member is rotatably attached to the second unit. The first groove portion is provided on a first side surface and houses the protrusion of the latch member located at the restriction position. The protrusion includes a first inclined surface inclined in a direction approaching the first side surface with increasing distance from the second unit in the rotation direction of the latch member.

An electronic device includes a housing including an attachment surface, an electronic component detachably attached to the attachment surface, and a lever attached to the housing in a state of being rotatable about a rotation axis adjacent to the electronic component and extending along the attachment surface. The lever has a lever body facing the electronic component in a direction where the rotation axis extends and extending along a radial direction orthogonal to the rotation axis. The lever body includes a recess recessed in a direction approaching the rotation axis of the lever along the radial direction. The electronic component includes a protrusion facing the recess, protruding in a direction toward the lever body, and being housed in the recess. By rotating the lever in a direction away from the attachment surface, the protrusion moves in a direction away from the rotation axis in the recess.

A display apparatus includes a first display and a second display. The first display includes a first display body having a first side, a positioning recess located at the first side, and an engagement recess located in the positioning recess. The second display is detachably mounted at one side of the first display body, includes a second display body, a positioning protrusion, and a pendulum hook, and has a second side. The positioning protrusion is connected to the second side and has a cavity configured to accommodate the pendulum hook pivotally connected to the positioning protrusion and including an engagement protrusion. The positioning protrusion is inserted into the positioning recess. The second side contacts the first side. The engagement protrusion is configured to move out of the cavity and be engaged with the engagement recess or move away from the engagement recess and move back to the cavity.

A system includes a monitor mount and first and second monitors. The monitor mount includes a first coupling, a second coupling, and a first power bus. The first monitor includes a first electronic visual display and has a size and shape configured to be detachably secured to the monitor mount by the first coupling. The first monitor can optionally be powered by the first power bus when secured to the monitor mount. The second monitor includes a second electronic visual display and a third coupling. The second monitor has a size and shape configured to: (i) be detachably secured to the monitor mount by the second coupling, (ii) detachably secure the first monitor by the third coupling, and (iii) surround at least a portion of the first electronic visual display when the first monitor is secured to the second monitor.