A video display method includes: acquiring at least one frame image corresponding to a current display time point in at least one source video; reading a stage configuration file, obtaining a stage modeling parameter of the stage space at the current display time point and a corresponding relationship between the at least one frame image and the stage space according to a specific stage related parameter in the stage configuration file; according to the stage modeling parameter and the corresponding relationship, processing the at least one frame image to obtain divided regions corresponding to all display screens included in the at least one stage plane; determining display contents corresponding to the divided regions, and copying the display contents to at least one target memory; and outputting a content in the at least one target memory to the at least one stage plane for display.

An electronic device is provided. The electronic device includes a housing, a display having a display area exposed through the housing and including a camera hole, a camera module positioned between the display and the housing, and positioned in correspondence to the camera hole, a processor connected to the display and the camera module, and a memory coupled to the processor and stores a content group including content. The memory may store instructions that allow the processor, when executed, to display the content in a first area of the display area when the content is of a first size, and the first area may be an area between a first tangent line of the camera hole and a first side of the display area, the first side may be a side that is in parallel to the first tangent line and closest to the first tangent line.

An embodiment for adjusting digital content in a flexible display device is provided. The embodiment may include receiving data relating to a position and orientation of a reference device relative to a user. The embodiment may also include identifying an orientation of a display surface of a mobile device and a relative position of the mobile device relative to a viewing direction of the user. The embodiment may further include identifying an optimal viewing angle of display content on the display surface of the mobile device. The embodiment may also include in response to determining the display content is not able to be displayed as a hologram, aligning the display content as text based on the optimal viewing angle. The embodiment may further include presenting the aligned display content as text to the user.

An embodiment for adjusting digital content in a flexible display device is provided. The embodiment may include receiving data relating to a position and orientation of a reference device relative to a user. The embodiment may also include identifying an orientation of a display surface of a mobile device and a relative position of the mobile device relative to a viewing direction of the user. The embodiment may further include identifying an optimal viewing angle of display content on the display surface of the mobile device. The embodiment may also include in response to determining the display content is not able to be displayed as a hologram, aligning the display content as text based on the optimal viewing angle. The embodiment may further include presenting the aligned display content as text to the user.

In an example implementation according to aspects of the present disclosure, a system comprising a camera, a plurality of displays and a processor. The processor receives a series of images, from the camera, corresponding to a physical environment, wherein the series of images include the plurality of displays. The processor identifies a fiducial mark within the series of images corresponding to a display. The processor determines a three-dimensional space based on a camera position based on the series of images. The processor determines a location within the three-dimensional space corresponding to the one of the plurality of displays. The processor creates a geospatial relationship between the location and the camera within the three-dimensional space. The processor correlates the geospatial relationship to a display configuration screen. The processor creates a pointing device path in the display configuration screen corresponding to the geospatial relationship.

Aspects presented herein relate to methods and devices for graphics processing including an apparatus, e.g., client device or a server. The apparatus may transmit, during a first time period, a plurality of head poses associated with a plurality of positions of the client device, the first time period being associated with a downlink activation time period for at least one previous frame. The apparatus may also receive, during a second time period after the first time period, at least one first frame including first content based on the plurality of head poses, the first time period and the second time period being synchronized with the server, the at least one first frame occurring after the at least one previous frame. Further, the apparatus may display, upon receiving the at least one first frame during the second time period, the at least one first frame including the first content.

Disclosed are exemplary embodiments of controls for heating, ventilation, and/or air conditioning systems. In an exemplary embodiment, a control for a heating, ventilation, and/or air conditioning system includes an alphanumeric display and one or more input device. A processor of the control is configured to receive a user input through the input device(s), and in response to the user input, reorient a display of a message relative to the alphanumeric display.

Disclosed are exemplary embodiments of controls for heating, ventilation, and/or air conditioning systems. In an exemplary embodiment, a control for a heating, ventilation, and/or air conditioning system includes an alphanumeric display and one or more input device. A processor of the control is configured to receive a user input through the input device(s), and in response to the user input, reorient a display of a message relative to the alphanumeric display.

A method for displaying on an orientable display device an oriented image from a content server; said method comprising: —receiving from said content server a composite image comprising information representing a plurality of oriented images, each oriented image representing a differently oriented region of said composite image; —determining at least one display device parameter of said orientable display device; —extracting from said composite image an oriented image based on said at least one determined display device parameter; and —displaying said extracted oriented image on said orientable display device.

A method for displaying on an orientable display device an oriented image from a content server; said method comprising: —receiving from said content server a composite image comprising information representing a plurality of oriented images, each oriented image representing a differently oriented region of said composite image; —determining at least one display device parameter of said orientable display device; —extracting from said composite image an oriented image based on said at least one determined display device parameter; and —displaying said extracted oriented image on said orientable display device.