A projection system includes a screen, an image projection device configured to project an image on the screen, and a carrying platform on which the image projection device is mounted, and which is configured to move, wherein the carrying platform includes a projection direction variable part which is configured to change a projection direction of the image, and a support mechanism configured to support the screen so as to adjust a position of the screen in a direction crossing an installation surface on which the carrying platform is installed.

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 general purpose image and visual effects display apparatus, with associated methods, which is comprised of an array of independently angled reflective or refractive elements wherein the varying angle pattern of each element across said array is designed to reflect or refract specifically designed light and color sources as well as fortuitously located existing colors, in precisely determined patterns, to make apparent to designated viewing or receiving locations a wide range of complex visual effects.

Screen vibration systems are provided that can vibrate theatre screens using acoustical, electromagnetic, or another type of energy while reducing the presence of image artifacts that may otherwise be visible as result of vibrating the screen. In one example of a screen vibration system, the system includes a controller and an electromechanical acoustical actuator with an open baffle. The electromechanical acoustical actuator can be uncoupled from the screen in an operational setup. The controller can provide a signal to the electromechanical acoustical actuator for causing the electromechanical acoustical actuator to output energy to displace air that is (i) in front of the electromechanical acoustical actuator and (ii) between the electromechanical acoustical actuator and the screen. The open baffle can prevent displaced air behind the electromechanical acoustical actuator from affecting the screen.

One aspect of the invention provides a system for dynamically repositioning a portion of a screen. The system includes: at least one knife moveable between a first position and a second position; a hook moveable between an open position in which the hook is disengaged from the at least one knife and a closed position in which the hook is removably engaged with the at least one knife; a node located on a back surface of the screen; and a linkage between the node and a distal end of the hook. When the hook is in the closed position and the at least one knife is moved from the first position to the second position, the linkage pulls the node causing the portion of the screen centered around the node to be moved distally away from a remaining portion of the screen.

An actuatable surface system may include a plurality of actuatable assemblies. Each actuatable assembly may include a flexible membrane and a bracket at least partially sealing the flexible membrane within the bracket. A fluid conduit is configured to apply fluid to a rear side of the flexible membrane to cause the flexible membrane to form a raised structure relative to the bracket, which in turn causes a surface layer, e.g., a projection surface, to protrude to accommodate the raised structure. A controller is configured to address each individual actuatable assembly to cause the fluid source to apply the fluid to form the raised structure.

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 speckle damping system for dampening speckle on a projection screen for a projection display system employing coherent or partially coherent light sources (e.g., lasers, LEDs) are disclosed. In one embodiment, a rotatably coupled system is disclosed, comprising: a set of actuators; a set of rotatably coupled mounts, each of said set of rotatably coupled mount capable of mounting at least one said actuator; and wherein said at least one actuator mounted on said rotatably coupled mount is in moveable mechanical communication with said projection screen. In another embodiment, a linearly coupled system is disclosed comprising: a set of actuators; a set of linearly coupled mounts, each of said set of linearly coupled mount capable of mounting at least one said actuator; and wherein said at least one actuator mounted on said linearly coupled mount is in moveable mechanical communication with said projection screen.

A system for projecting content, such as images, onto a moving object. The system includes a tracking module, a prediction module, a projection generation module, and a projector. In one example, the tracking module and the prediction module provide commentary data to the projection generation module, which uses the data to select or render content for projection on the object at a select location. The complementary data includes tracked position information and predicted position information.

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.