A cluster according to an embodiment of the disclosure includes a display and a spatial image panel. The display is installed in the vehicle to output predetermined information as a 2D image. The spatial image panel is configured to output a 3D image in a predetermined space in front. The spatial image panel includes a first lens array, a second lens array, and a refractive medium. The first lens array is disposed adjacent to the display and includes a plurality of first lenses arranged on the same plane. The second lens array is disposed in parallel with the first array so that the first lenses and second lenses overlap each other. The refractive medium is disposed between the first lens array and the second lens array.

A system to capture a plurality of two dimensional digital source images of scene by user, a smart device having a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a plurality of digital image capture devices in communication with the processor and each image capture device configured to capture a digital image of the scene, the plurality of digital image capture devices positioned linearly in series within approximately an interpupillary distance, wherein a first digital image capture devices is centered proximate a first end of the interpupillary distance, a second digital image capture devices is centered on a second end of the interpupillary distance, and any remaining the plurality of digital image capture devices are evenly spaced therebetween, a display in communication with the processor, display configured to display multidimensional digital image and add audio file thereto.

The present disclosure provides a device for stereoscopic displaying and a method for controlling the same. The device for stereoscopic displaying comprises: a rotary shaft and at least one display assembly. The display assembly is fixed to the rotary shaft, the display assembly comprises at least three display surfaces, and at least one of the display surfaces is arranged opposite to the rotary shaft in a radial direction of the rotary shaft.

The present disclosure provides a device for stereoscopic displaying and a method for controlling the same. The device for stereoscopic displaying comprises: a rotary shaft and at least one display assembly. The display assembly is fixed to the rotary shaft, the display assembly comprises at least three display surfaces, and at least one of the display surfaces is arranged opposite to the rotary shaft in a radial direction of the rotary shaft.

A vehicular camera monitoring system includes a pair of rearward viewing cameras disposed at a vehicle with overlapping fields of view. A driver-monitoring camera is disposed at the vehicle. An ECU includes an image processor that processes image data captured by the driver-monitor camera and the rearward viewing cameras. A stereographic video display screen is disposed at the vehicle and viewable by the driver of the vehicle. Responsive to processing of image data captured by the driver-monitoring camera, the ECU determines location of each eye of the driver of the vehicle. Responsive to processing of image data captured by each of the rearward viewing cameras, the stereographic video display screen displays video images derived at least in part from image data captured by both rearward viewing cameras and provides depth perception to the driver of the vehicle viewing the displayed video images.

A vehicular camera monitoring system includes a pair of rearward viewing cameras disposed at a vehicle with overlapping fields of view. A driver-monitoring camera is disposed at the vehicle. An ECU includes an image processor that processes image data captured by the driver-monitor camera and the rearward viewing cameras. A stereographic video display screen is disposed at the vehicle and viewable by the driver of the vehicle. Responsive to processing of image data captured by the driver-monitoring camera, the ECU determines location of each eye of the driver of the vehicle. Responsive to processing of image data captured by each of the rearward viewing cameras, the stereographic video display screen displays video images derived at least in part from image data captured by both rearward viewing cameras and provides depth perception to the driver of the vehicle viewing the displayed video images.

An image processing apparatus acquires information about a three-dimensional display apparatus, acquires a plurality of images based on imaging by a plurality of imaging apparatuses that images a target area from different directions, sets a position of and a direction from a virtual viewpoint in a space associated with the target area, sets positions of and directions from virtual viewpoints of a number corresponding to a configuration of the three-dimensional display apparatus, with the position of and the direction from the virtual viewpoint as a reference, and generates display image data for the three-dimensional display apparatus, based on the plurality of images and the set positions of and the set directions from the virtual viewpoints.

An image processing apparatus acquires information about a three-dimensional display apparatus, acquires a plurality of images based on imaging by a plurality of imaging apparatuses that images a target area from different directions, sets a position of and a direction from a virtual viewpoint in a space associated with the target area, sets positions of and directions from virtual viewpoints of a number corresponding to a configuration of the three-dimensional display apparatus, with the position of and the direction from the virtual viewpoint as a reference, and generates display image data for the three-dimensional display apparatus, based on the plurality of images and the set positions of and the set directions from the virtual viewpoints.

This patent discloses a method record imagery in a way that is larger than a user could visualize. Then, allow the user to view naturally via head tracking and eye tracking to allow one to see and inspect a scene as if one were naturally there viewing it in real time. A smart system of analyzing the viewing parameters of a user and streaming of customized image to be displayed is also taught herein.

This patent discloses a method record imagery in a way that is larger than a user could visualize. Then, allow the user to view naturally via head tracking and eye tracking to allow one to see and inspect a scene as if one were naturally there viewing it in real time. A smart system of analyzing the viewing parameters of a user and streaming of customized image to be displayed is also taught herein.