The embodiments of the present disclosure provide a control method and device for a terminal. The control method for the terminal provided by the disclosure comprises the steps: acquiring operation information of a user at an edge touch area of the terminal; and controlling the display direction of a keyboard of the terminal according to the operation information of the user at the edge touch area of the terminal. The technical solutions of the present disclosure have the advantages that the operation is simple and convenient, the man-machine interaction efficiency is improved, and the problem of relatively low man-machine interaction efficiency caused by a reason that it is quite inconvenient to input data via the keyboard when the holding direction different from the display direction of the keyboard is adopted in the prior art can be solved.

Disclosed is a method and device for switching a playing mode of a mobile terminal, a storage medium and a program, including creating a full screen blank view and creating a full screen playing view, so that the full screen playing view covers the full screen blank view; loading a video content to be played into the full screen playing view; and after a rotation angle of a mobile terminal is received, rotating the video content which is loaded into the full screen playing view, and playing the rotated video content in the full screen playing view. By switching a playing mode of a mobile terminal, a non-full screen mode in a vertical screen form is switched to a full screen mode in a horizontal screen form; and a video content does not need to be recomposed any longer, thereby reducing hardware resources consumption and accelerating the switching process.

A display device includes a display panel including a first display area displaying a first image and a second display area adjacent to the first display area and displaying a second image and an image corrector generating an image shifted by correcting the first image and the second image where the image corrector may correct the first image and the second image such that the first image is shifted only in the first display area and the second image is shifted only in the second display area.

A projection display unit and a function control method. The projection display unit includes: a projection optical system including an illumination section, a projection lens, and a light valve; and a detection optical system including an image pickup device, the image pickup device being disposed in a position optically conjugating with the light valve, wherein: the detection optical system is configured to detect whether an input operation is performed in a peripheral region of a projection region on a projection surface, and in response to detection by the detection optical system in the peripheral region, a specific function is caused to be executed.

An information display controller is capable of switching a plurality of screens and allowing a display to display the plurality of screens thereon, and includes a screen constructor, a texture atlas storage unit and a texture atlas creator. The texture atlas creator creates a texture atlas, in which elemental images as constituents of the plurality of screens are arranged, in accordance with an algorithm that takes sizes of the elemental images as references. The texture atlas storage unit stores the texture atlas created by the texture atlas creator. The screen constructor constructs the plurality of screens by using the elemental images extracted from the texture atlas stored in the texture atlas storage unit. In an event of creating the texture atlas, the texture atlas creator preferentially incorporates, into the texture atlas, an elemental image for composing the screen including more elemental images already arranged in the texture atlas.

A head-mounted display device including one or more position sensors and a processor. The processor may receive a rendered image of a current frame. The processor may receive position data from the one or more position sensors and determine an updated device pose based on the position data. The processor may apply a first spatial correction to color information in pixels of the rendered image at least in part by reprojecting the rendered image based on the updated device pose. The head-mounted display device may further include a display configured to apply a second spatial correction to the color information in the pixels of the rendered image at least in part by applying wobulation to the reprojected rendered image to thereby generate a sequence of wobulated pixel subframes for the current frame. The display may display the current frame by displaying the sequence of wobulated pixel subframes.

Methods for generating and displaying images associated with one or more virtual objects within an augmented reality environment at a frame rate that is greater than a rendering frame rate are described. The rendering frame rate may correspond with the minimum time to render images associated with a pose of a head-mounted display device (HMD). In some embodiments, the HMD may determine a predicted pose associated with a future position and orientation of the HMD, generate a pre-rendered image based on the predicted pose, determine an updated pose associated with the HMD subsequent to generating the pre-rendered image, generate an updated image based on the updated pose and the pre-rendered image, and display the updated image on the HMD. The updated image may be generated via a homographic transformation and/or a pixel offset adjustment of the pre-rendered image by circuitry within the display.

An information display apparatus capable of reducing the viewpoint movement of a driver and achieving safer driving in consideration of the relationship between the traveling speed and the stopping distance of a vehicle is provided. The information display apparatus is configured to display image information in a transportation and comprises a HUD apparatus disposed between a windshield of the transportation and an instrument panel of the transportation. The HUD apparatus detects a viewpoint position of a driver; and displays a virtual image of the image information in front of the transportation by reflecting light emitted from the HUD apparatus to display the image information by the windshield. The HUD apparatus is configured to set a display position of the virtual image in accordance with movement of the viewpoint position of the driver who is driving the transportation.

A method of supporting divided screen areas and a mobile terminal employing the same are disclosed. The method includes: generating input signals for one of sequentially and simultaneously activating a plurality of user functions; activating the user functions according to generated input signals; dividing a screen into divided screen areas that correspond to activated user functions; and outputting functional view areas associated with the activated user functions to the corresponding divided screen areas.

An electronic apparatus and a control method thereof include obtaining usage history for a plurality of applications in a horizontal display mode and a vertical display mode of a display, displaying a plurality of first icons corresponding to the plurality of applications in a first sorted order, and displaying a plurality of second icons corresponding to the plurality of applications in a second sorted order based on usage history for the plurality of applications in the vertical mode.