An electronic device (e.g., smartphone) can be connected to an external display device, allowing the electronic device to display content on the external display device. The external display device can be a standalone display device or be part of another electronic device (e.g., a laptop or tablet). The electronic device supports multiple input styles including a gesture-based input style and a non-gesture-based input style. The electronic device adapts to the external display device by using the gesture-based input style if the external display device is touch enabled and using the non-gesture-based if the external display is not touch enabled. Additionally or alternatively, the external display device adapts to the input style being used by the electronic device by displaying an augmentation bar associated with the content and supporting the non-gesture-based input style when the external display device detects that the electronic device is using the gesture-based input style.

A mobile terminal including a display unit configured to display an image of which the viewing angle is changeable; and a controller configured to change the viewing angle of the displayed image in response to a user viewing change input, in response to a user selection of a first object included in the image, automatically change the viewing angle of the image such that the first object included in the image is continuously displayed on the display unit while the viewing angle is changed.

The present application relates to a node task data display method. The method comprises: receiving a query instruction for node task data, the query instruction carrying a user identifier and a node identifier; querying node task data associated with the user identifier from a node task data table associated with the node identifier according to the query instruction; querying variable configuration information associated with the user identifier from a variable configuration information table associated with the node identifier; extracting a variable value corresponding to the variable configuration information from each piece of queried node task data; and displaying in order each piece of queried node task data according to the extracted variable value of each piece of node task data.

A display screen of a terminal includes a substrate, and a display layer over the substrate. The display layer includes a primary display area and a secondary display area. The secondary display area has a resolution equal to or greater than that of the primary display area. The light transmission performance of the secondary display area is superior to that of the primary display area.

A method includes sensing a plurality of light superposition characteristic values associated with ambient light from a physical environment. The ambient light emanates from the physical environment towards one side of a translucent display. The plurality of light superposition characteristic values quantifies interactions with the ambient light. The method includes determining a plurality of display correction values associated with the electronic device based on a function of the plurality of light superposition characteristic values and predetermined display characteristics of a computer-generated reality (CGR) object. The method includes changing one or more display operating parameters associated with the electronic device in accordance with the plurality of display correction values in order to satisfy the predetermined display characteristics of the CGR object within a performance threshold.

A monitoring system includes an imaging device and a control device. The control device includes a device communication section, a device controller, and device storage. The device controller includes an assignment section and a count section. The imaging device captures an image of an imaging area to generate captured image data indicating the captured image. The device controller acquires the captured image data from the imaging device through the device communication section. The assignment section assigns a plurality of candidate detection ranges to the captured image. The count section counts the number of occurrences of a specific event in each of the candidate detection ranges. The device storage stores therein the number of occurrences of the specific event in association with each of the candidate detection ranges.

In some implementations, a computing device can perform multi-display alignment through observed user interactions. The computing device can receive user input aligning a first alignment object on a first display device with a second alignment object on a second display device. The computing device can align the display buffers for each display device based on the positions of the alignment objects in each display buffer corresponding to each display device. The computing device can align display buffers based on observed movements of graphical objects between multiple display devices. When display buffers corresponding to the display devices are misaligned, the user may correct the path of a graphical object when moving the graphical object between display devices. The computing device can detect the correction and align the display buffers of the display devices so that graphical objects are presented at the appropriate locations when moved between the display devices.

A programmable display includes a display data generator that generates display data for pages corresponding to their page identifier, a display portion that displays a page corresponding to the page identifier on its display screen based on the display data that is generated by the display data generator, and a touch detector that detects touch operations on the display screen of the display portion. The display portion generates display data for displaying the device wave of the device that is specified by the subject device settings based on the chronological data, which is stored in the PLC, when the touch detector detects a predetermined second touch operation on the display screen. The display portion displays a second page or a device wave on the display screen based on the display data that is generated by the display data generator.

Disclosed herein are system, method, and computer program product embodiments for accurately mapping audio to a visual image on a display device. An embodiment operates by, based on an identified virtual representation of the remote venue, modifying audio received at a local venue to produce a first and second modified audio. Thereafter, the first and second modified audio is correlated to a first and second portion of a prestored image. Afterward, the first and second portion of the prestored image is presented on a first and second portion of the display device's curved screen, and the first and second modified audio is provided on a first and second audio device, respectively, such that the first and second modified audio is provided to the first and second regions of the local venue synchronously with the first and second portions of audio.

Embodiments of the present disclosure relate to user interfaces and systems that may enable dynamic and interactive access of, investigation of, and analysis of data objects stored in one or more databases. The data objects may be accessed from the one or more databases, and presented in multiple related portions of a display. In particular, the system provides a time-based visualization of data objects (and/or properties associated with the data objects) to a user such that the user may, for example, determine connections between various data objects, observe flows of information among data objects, and/or investigate related data objects.