Based on information about a vehicle, the information can be projected and displayed onto a road surface or the like. An image projection apparatus, which projects an image, includes an acquisition unit that acquires the information about the vehicle, and an image projection unit that projects the image based on the information acquired by the acquisition unit.

Based on information about a vehicle, the information can be projected and displayed onto a road surface or the like. An image projection apparatus, which projects an image, includes an acquisition unit that acquires the information about the vehicle, and an image projection unit that projects the image based on the information acquired by the acquisition unit.

This disclosure relates to an automotive glass display. An example vehicle includes a projector configured to project light, and a glass panel including a first layer of glass, a second layer of glass, a first layer of polyvinyl butyral (PVB), and a second layer of material. The first layer of PVB is configured to diffuse light from the projector, and the second layer of material is configured to reduce glare. Other example glass panel arrangements are also disclosed.

A drive system for a projection screen in a swept surface volumetric 3D display is disclosed. The drive system causes the projection screen to reciprocate through an excursion distance at a screen reciprocating frequency relative to a projection system. The drive system includes an actuator arrangement for generating an input reciprocating force substantially at the screen reciprocating frequency through an input excursion distance and a support structure for the projection screen. The support structure includes a resonant mounting arrangement for the projection screen. The resonant mounting arrangement is operably connected to the actuator arrangement and configured to allow the projection screen to reciprocate through the excursion distance. The resonant mounting arrangement is configured to have a resonant frequency substantially equivalent to the screen reciprocating frequency on actuation of the actuator arrangement. A gaming console incorporating a swept surface volumetric 3D display based on the drive system is also disclosed.

A screen can be vibrated by vibrators that are drivable by signals. Each vibrator can be adjacent in position to other vibrators that are drivable by different types of drive signals than a drive signal associated with the vibrator. The number of drive signals can be equal to or less than the number of vibrators. A vibrator assembly for a vibrator can include a baffle and a transducer that couples to the baffle. The transducer can vibrate at least a portion of the screen. The vibrating screen can be monitored by a sensor and an analyzer unit that can analyze image speckle and screen displacement artifacts in captured images of images projected onto the screen and output results of the analysis.

A robotic mount is configured to move an entertainment element such as a video display, a video projector, a video projector screen or a camera. The robotic mount is moveable in multiple degrees of freedom, whereby the associated entertainment element is moveable in three-dimensional space. In one embodiment, a system of entertainment elements are made to move and operate in synchronicity with each other, such as to move a single camera via multiple robotic mounts to one or more positions or along one or more paths.

A large projection image screen device having a seesaw structure for virtual reality where a chair is provided on one side of a lever and an image system is provided on the other side of the lever. Several rotation shafts are provided below the lever for up down rotation, left right rotation and front rear rotation, where when the chair and the screen are rotated up and downward, left and rightward, and front and rearward, a user on the chair views the images at the same view angle as the rotation angle of the screen through a location tracing device.

A projection image display includes: a screen unit that has a screen; a projection unit that projects an image onto the screen from a back surface of the screen; a housing that houses the projection unit; a slide mechanism that supports the screen unit such that the screen unit moves in an anterior-posterior direction; a locking mechanism that restricts a movement of the slide mechanism; and an adjustment mechanism that is capable of adjusting a position of the screen unit with respect to the housing from the outside while the locking mechanism restricts the movement of the slide mechanism.

Provided herein are systems and methods to configure an immersive theater environment by moving one or more screens. A movie screen can be provided with one or more actuators coupled to the movie screen, wherein the one or more actuators are configured to move the movie screen in a plurality of directions including, for example, up, down, left, right, back, forward, pitch, roll, and yaw. This system can include a processor coupled to the actuator, wherein the processor is configured to control the movement of the one or more actuators, synchronize cinema content for movement of the movie screen, process cinema content for metadata cues indicating movement of the movie screen, and track positions of the movie screen.

An unmanned aerial system (UAS) that displays an image, video or other effect is described. The UAS may include a camera that captures the image for display. The UAS may be used in connection with a water display, and multiple UASs may operate together.