Patent application number | Description | Published |
20100033682 | High dynamic range scenographic image projection - A high dynamic range scenographic image and video projection system and method involving the projection of an image of an object or collection of objects onto the object, 2D or 3D, in such a manner than projected image elements are positioned substantially on the actual image of the object. The projection enhances or otherwise alters the hue, contrast, brightness, saturation, luminance, and/or other visible features of the object. Visual and not-visual features may be projected onto the object or the area around the object to enhance or disguise the object as well as the surroundings of the object. | 02-11-2010 |
20100033683 | INFRARED IMAGING PROJECTION - The subject matter disclosed herein involves systems, methods, apparatuses or devices related to infrared imaging or infrared imaging projection. | 02-11-2010 |
20110037952 | APPARATUS AND METHOD FOR AN ANAMORPHIC PEPPER'S GHOST ILLUSION - An assembly and method of generating a Pepper's ghost illusion involving an image generation platform, such as a computer providing an anamorphically-distorted image coupled with some form of display projects an image, directly or indirectly on a spherical medium. The spherical medium reconstitutes the anamorphically-distorted image and generates a Pepper's ghost illusion of the reconstituted anamorphically-distorted image. | 02-17-2011 |
20110285854 | System and method for theatrical followspot control interface - There is provided a system and method for controlling a tracking device to follow a location of a performer on a stage. The tracking device may comprise a lighting fixture such as a high output video projector or an automated mechanical moving light such as a DMX lighting fixture to provide a followspot, or a microphone to record audio from a particular performer. The method comprises capturing a video feed of the stage using a camera, presenting the video feed on a display of a control device, receiving input data indicating a position of the performer in the video feed, translating the input data into the location of the performer on the stage, and adjusting the tracking device to follow the location of the performer on the stage. The control device thereby provides lighting operators with an intuitive interface readily implemented using cost effective commodity hardware. | 11-24-2011 |
20120154695 | High Dynamic range scenographic image projection - A high dynamic range scenographic image and video projection system and method involving the projection of an image of an object or collection of objects onto the object, 2D or 3D, in such a manner than projected image elements are positioned substantially on the actual image of the object. The projection enhances or otherwise alters the hue, contrast, brightness, saturation, luminance, and/or other visible features of the object. Visual and not-visual features may be projected onto the object or the area around the object to enhance or disguise the object as well as the surroundings of the object. | 06-21-2012 |
20130308064 | INFRARED VIDEO TRACKING FOR USE IN PROJECTING ONTO DYNAMIC WATER FEATURES - A projection system for projecting a still or video image onto a liquid surface. The system includes an agitation mechanism selectively operable to generate gas bubbles on the liquid surface. The system includes a tracking system tracking a location, size, and shape of the gas bubbles on the liquid surface. The system also includes a projector projecting a video stream onto the gas bubbles based on the location, shape, and size of the area of the liquid surface containing the gas bubbles. The tracking system may include an infrared (IR) light source delivering IR light to the liquid surface and an IR video camera receiving a portion of the delivered IR light that is reflected by the gas bubbles. The reflected IR light defines a dynamic projection surface presented by the gas bubbles on the liquid surface by defining a boundary on the liquid surface about the gas bubbles. | 11-21-2013 |
20150375445 | MAPPING FOR THREE DIMENSIONAL SURFACES - The present disclosure includes a method for modifying an input image to map to a three dimensional shape prior to forming the three dimensional shape. The method includes receiving by a processor at least two pre-forming images of a locally unique non-repeating pattern printed on an input material. The at least two pre-forming images are captured prior to the input material being formed into the three dimensional shape. The method further includes receiving by the processor at least two post-forming images of the pattern printed on the input material, wherein the post-forming images are captured after the input material has been formed into the three dimensional shape and analyzing by the processor the at least pre-forming images and the at least two post-forming images to determine a translation table. | 12-31-2015 |
20150375493 | Rear Projected Screen Materials and Processes - Disclosed herein are materials and methods used to form a three dimensional (3D) article having a printed layer thereon. The 3D articles are capable of displaying rear projected images, effectively as a 3D “screen” for displaying an image or a movie. The 3D articles are used as standalone articles or as a portion of an animatronic figure. The articles are made by forming a substantially planar thermoformable laminate including a rear projection screen material, printing and curing a radiation curable ink onto one or both sides of the laminate, and thermoforming to impart a shape to the laminate. | 12-31-2015 |