In one embodiment, a method may obtain, from an application, (a) an image and (b) a layer frame having a first pose in front of the image. The method may generate, for a first viewpoint associated with a first time, a first display frame by separately rendering the image and the layer frame having the first pose into a display buffer. The method may display the first display frame at the first time. The method may determine an extrapolated pose for the layer frame based on the first pose of the layer frame and a second pose of a previously submitted layer frame. The method may generate, for a second viewpoint associated with a second time, a second display frame by separately rendering the image and the layer frame having the extrapolated pose into the display buffer. The method may display the second display frame at the second time.

An information processing device includes: a foldable one display; a memory which stores at least a program; and a processor. By executing the program stored in the memory, the processor performs display mode switching processing to switch among a first display mode to control display in such a manner that a screen area of the display is set as one display area, a second display mode to control display in such a manner that the screen area of the display is split into two display areas of a first display area and a second display area with the first display area set as a primary screen and the second display area set as a secondary screen, and a third display mode to control display in such a manner that the second display area is set as the primary screen and the first display area is set as the secondary screen.

Content data representing content that includes at least one or more components is acquired. Projection area data representing a projection area is acquired. A deteriorated part, which is a part where a projection condition is deteriorated in the projection area, is identified based on the projection area data. A priority of the component included in the content is identified. Display deterioration of the content, which is caused by the deteriorated part, is suppressed based on a position of the identified deteriorated part in the projection area, the content data displayed on the projection area, a threshold according to the identified priority, and a degree of deterioration indicative of a level of deterioration of the component.

A handheld imaging device has a data receiver that is configured to receive reference encoded image data. The data includes reference code values, which are encoded by an external coding system. The reference code values represent reference gray levels, which are being selected using a reference grayscale display function that is based on perceptual non-linearity of human vision adapted at different light levels to spatial frequencies. The imaging device also has a data converter that is configured to access a code mapping between the reference code values and device-specific code values of the imaging device. The device-specific code values are configured to produce gray levels that are specific to the imaging device. Based on the code mapping, the data converter is configured to transcode the reference encoded image data into device-specific image data, which is encoded with the device-specific code values.

A method, apparatus and computer program are described to determine a configuration of a reconfigurable screen of a user device, identify potentially problematic sources of reflection from a scene around a user device based, at least in part, on the determined configuration, and compensate for the potentially problematic sources of reflection.

A multi-view (MV) network bridge device includes an upstream interface, multiple downstream interfaces, and a controller. The controller receives, from the upstream interface, a specification of one or more viewing zones and a specification of one or more content streams. Also, the controller sends, on at least one of the downstream interfaces, at least a subset of each of the specifications received from the upstream interface. The upstream interface may be coupled to a computer that provides the specifications. Each of the downstream interfaces may be coupled to a different MV display panel. One of the downstream interfaces may be coupled to an MV display panel that is coupled to another MV display panel. One of the downstream interfaces may be coupled to an upstream interface of another MV network bridge device having a downstream interface coupled to an MV display panel.

A display system and vehicle that have novel structures are provided. The display system includes a display panel, a correction circuit, and a memory circuit. The display panel is flexible. The display panel includes a display region and a non-display region. The memory circuit has a function of storing first data about the display region and second data about the non-display region. The non-display region has a region which overlaps with the display region when the display panel is bent. The correction circuit has a function of generating image data to be written to pixels in the display region on the basis of the first data and the second data.

Devices, methods and computer program products that facilitate automated adjustment of size or configuration of head up display image in a vehicle. A device can include a memory and a processor that executes computer executable modules. The computer executable modules can include: a head up display that generates an image visible to a driver of a vehicle within an eye box, a detection module that determines position of the driver's eyes or head relative to position of the eye box, and an adjustment module that adjusts size or configuration of the image within the eye box in response to the determined driver's eye or head position.

The present disclosure provides a mobile terminal capable of expanding a display unit, and a control method therefor. When an event occurs, the mobile terminal of the present disclosure provides a user with convenience by enabling the user to select whether to expand the display unit upon execution of the event. Specifically, the event can be the execution of a specific application or the reception of a notification related to a call or a message.

A display apparatus includes a display; a communication interface including circuitry; and a processor configured to: based on a plurality of contents received from a plurality of source devices through the communication interface in a multi-view mode, obtain a first frame including each of the received plurality of contents in different areas of the display, obtain a second frame to which High Dynamic Range (HDR) processing is applied by performing tone mapping based on first luminance information on each of the plurality of contents included in the first frame, and control the display to display the second frame.