Provided is an image display device used by being mounted to a head or a face of a user, including a first display unit that displays an internal image seen from a side of the user, a second display unit that displays an external image seen from outside the image display device, and a control unit that controls display of the internal image and the external image.

A 3D display control system and method are provided. The system includes: a display module, including a plurality of pixel units; an eye position detection device, configured to detect first position moving information and second position moving information; and a lens plate, located at a light emergent side of the display module, and configured to generate a plurality of first lens equivalent units and a plurality of second lens equivalent units, wherein at least one pixel unit directly below each first lens equivalent unit forms a first pixel unit group, and each first lens equivalent unit is configured to redirect light from the first pixel unit group directly therebelow toward a first position.

A binocular see-through AR head-mounted display device is disclosed. Based on that the mapping relationships f.sub.c.fwdarw.s and f.sub.d.fwdarw.i are pre-stored in the head-mounted device, the position of the target object in the camera image is obtained through an image tracking method, and is mapped to the screen coordinate system of the head-mounted device for calculating the left/right image display position. Through a monocular distance finding method, the distance between the target object and the camera is real-time calculated referring to the imaging scale of the camera, so as to calculate a left-right image distance, thereby calculating the right or the right image display position. Correspondingly, the present invention also provides an information display method for a binocular see-through AR head-mounted display device and an augmented reality information display system. The present invention is highly reliable with low cost. The conventional depth of field adjustment is to change an image distance of an optical element. However, the present invention breaks conventional thinking, which calculates the left and the right image display positions for depth of field adjustment without changing a structure of an optical device. The present invention is novel and practical compared to changing an optical focal length.

A method, apparatus and computer program product are provided to define the location of a center point associated with each frame within a stream of image data. Metadata associated with the orientation, such as the pitch and yaw, of a camera is synchronized on a frame-by-frame basis with a related stream of image data. In connection with receiving the image data and the orientation data, the method defines a center point associated with a video frame images and transmits a control signal causing the reorientation of at least a subset of video image frames. In some example implementations, arising in the context of 360° video streams, the rotation of the head of a viewer of virtual reality content or other 360° video streams may be taken into account when defining the location of a center point.

A virtual or augmented reality display system can include a first sensor to provide measurements of a user's head pose over time and a processor to estimate the user's head pose based on at least one head pose measurement and based on at least one calculated predicted head pose. The processor can combine the head pose measurement and the predicted head pose using one or more gain factors. The one or more gain factors may vary based upon the user's head pose position within a physiological range of movement.

A virtual or augmented reality display system can include a first sensor to provide measurements of a user's head pose over time and a processor to estimate the user's head pose based on at least one head pose measurement and based on at least one calculated predicted head pose. The processor can combine the head pose measurement and the predicted head pose using one or more gain factors. The one or more gain factors may vary based upon the user's head pose position within a physiological range of movement.

There is provided an image processing device that processes a projection image presented to a plurality of persons at the same time. The image processing device specifies an overlapping area in which fields of view of two or more users overlap based on information on each user, classifies objects included in the overlapping area into a first object group and a second object group, generates a common image common to all users, made up of the first object group, generates individual images different for each user, made up of the second object group, and determines an output protocol for displaying the individual images.

There is provided an image processing device that processes a projection image presented to a plurality of persons at the same time. The image processing device specifies an overlapping area in which fields of view of two or more users overlap based on information on each user, classifies objects included in the overlapping area into a first object group and a second object group, generates a common image common to all users, made up of the first object group, generates individual images different for each user, made up of the second object group, and determines an output protocol for displaying the individual images.

Provided is a method for realizing 3D image display, comprising: detecting a posture change of a 3D display device, wherein the 3D display device comprises a multi-viewpoint 3D display screen, the multi-viewpoint 3D display screen comprises a plurality of composite pixels and a plurality of spherical gratings covering the plurality of composite pixels, each composite pixel of the plurality of composite pixels comprises a plurality of composite subpixels, and each composite subpixel of the plurality of composite subpixels comprises a plurality of subpixels corresponding to a plurality of viewpoints; and when detecting the posture change of the 3D display device, adjusting a display orientation of a displayed 3D image so that the 3D image is kept in an initial display orientation before the posture change of the 3D display device. A 3D display device, a computer-readable storage medium, and a computer program product are further provided.

Provided is a method for realizing 3D image display, comprising: detecting a posture change of a 3D display device, wherein the 3D display device comprises a multi-viewpoint 3D display screen, the multi-viewpoint 3D display screen comprises a plurality of composite pixels and a plurality of spherical gratings covering the plurality of composite pixels, each composite pixel of the plurality of composite pixels comprises a plurality of composite subpixels, and each composite subpixel of the plurality of composite subpixels comprises a plurality of subpixels corresponding to a plurality of viewpoints; and when detecting the posture change of the 3D display device, adjusting a display orientation of a displayed 3D image so that the 3D image is kept in an initial display orientation before the posture change of the 3D display device. A 3D display device, a computer-readable storage medium, and a computer program product are further provided.