An image processing apparatus includes an imaging unit that images a user and a real object, an analysis unit that analyzes an attitude of the real object based on imaging information captured by the imaging unit, and a control unit that controls display of an image related to the real object based on the attitude of the real object.

An embodiment of an electronic processing system may include an application processor, persistent storage media communicatively coupled to the application processor, a graphics subsystem communicatively coupled to the application processor, an object space adjuster communicatively coupled to the graphics subsystem to adjust an object space parameter based on a screen space parameter, and a sample adjuster communicatively coupled to the graphics subsystem to adjust a sample parameter of the graphics subsystem based on a detected condition. Other embodiments are disclosed and claimed.

There are provided: a vehicle display device including a HUD device capable of ensuring safe traveling by suitably controlling a display region of an image to be displayed on the windshield of a vehicle; and a display method. A vehicle display device includes a HUD device that projects image light of an image, which is to be displayed, on a windshield WS of a vehicle such that a virtual image I* of the image is visually recognized by reflected light. The vehicle display device is operable to display a plurality of images having a priority order, and an image having a high priority order is displayed such that an image displayed in a specified region As of the windshield WS has a predetermined display rate (=an area of the image/an area of the specified region) or less. Warning images I2 and I31 to I34 are set in a priority order higher than that of the driving support images I11 to I13.

A display control apparatus comprises a first display unit capable of being viewed via an eyepiece part, a second display unit capable of being viewed without the eyepiece part, an eye approach detection unit configured to detect an eye approaching to the eyepiece part, a sight line detection unit configured to detect a sight line of the eye that is viewing the first display unit via the eyepiece part, and a control unit configured to perform control to stop display of the first display unit if a sight line is not detected by the sight line detection unit within a first time period in a state where the eye approaching is being detected by the eye approach detection unit.

A graphics processing unit (GPU) of a processing system transmits pixel data for a frame to a display in a compressed burst, so that the pixel data is communicated at a rate that is higher than the rate at which the display scans out the pixel data to refresh the frame at a display panel. By transmitting pixel data for the frame in a compressed burst, the GPU shortens the time spent transmitting the pixel data and extends the time before the next frame of pixel data is to be transmitted. During the extended time before the next frame of pixel data is to be transmitted, the GPU saves power by placing portions of the processing system in a reduced power mode.

A method includes obtaining rendered image data that includes a representation of an object for display using a see-through display. The see-through display permits ambient light from a physical environment through the see-through display. The method includes sensing a plurality of light superposition characteristic values associated with the ambient light that quantifies the ambient light. The method includes determining a plurality of display correction values associated with the electronic device based on the plurality of light superposition characteristic values and predetermined display characteristics of the representation of the object. The method includes generating, from the rendered image data, display data for the see-through display in accordance with the plurality of display correction values in order to satisfy the predetermined display characteristics of the representation of the object within a performance threshold.

A system is disclosed for processing and streaming real-time graphics by a video-server for synchronized output via secondary-network connected display adapters to multiple displays arranged as a video-wall. This system enables the video-server to leverage performance advantages afforded by advanced GPUs, combined with low-cost Smart displays or System-on-Chip devices to deliver advanced realtime video-wall capabilities over the network while offering flexibility in the selection of network display adapters and still achieving synchronized output of multiple sub-image streams to selected end-point displays. This has applications generally in the field of real-time multiple-display graphics distribution as well as specific applications in the field of network video-walls. A method and computer readable medium are also disclosed that operate in accordance with the system.

The present disclosure provides a method of processing an information, a method of rending an image, and an electronic device. A specific implementation solution may include: acquiring a target image obtained by rendering, wherein the target image contains one or more target parameter information corresponding to one or more rendering indexes respectively; generating a rendering code according to the target parameter information of the target image, wherein the rendering code is for rendering an image to be rendered; and transmitting the rendering code to a second electronic device.

Methods, systems and apparatuses may provide for technology that generates, with a first graphics processing unit, geometric attributes associated with a first primitive. The technology determines that the first primitive is associated with a second graphics processing unit based on a first screen space tile associated with the first primitive, and transfers the geometric attributes of the first primitive from the first graphics processing unit to the second graphics processing unit based on the first primitive being associated with the first screen space tile.

Methods, systems and apparatuses may provide for technology that generates a seed value, wherein the seed value is dedicated to a position of an input pixel, generates a dithered pixel value based on the seed value and a value of the input pixel, and conducts a scan-out of the dithered pixel value to a display panel. In one example, the technology generates an intermediate value based on the seed value and one or more fixed constants and generates a pseudo random number based on the intermediate value and a programmable constant, wherein the dithered pixel value is generated based on the pseudo random number and the value of the input pixel.