Abstract: Systems, methods, and devices are disclosed for tracking physical objects using a passive reflective object. A computer-implemented method includes obtaining a location profile derived from content capturing a passive object having a reflective surface reflecting one or more real-world objects. The passive object is attached to a physical object. The method further includes transmitting the location profile to a simulation device. The method further includes generating a virtual representation of the physical object based on the location profile of the passive object. The method further includes presenting the virtual representation in a simulation experience.

Abstract: The present invention provides a system which allows users to mount multiple pieces of equipment to a tower and it has the unique capability to adjust a steel frame to level without additional equipment. In accordance with a first preferred embodiment, the present invention includes a duel locking system that includes a taper adjusting bolt to adjustably position the frame level with the earth. Further, the dual locking system of the present invention preferably further includes the use of retaining bolts to keep the assembly positioned correctly. According to a further aspect of the present invention, once the taper adjusting bolt is in its desired position, the retaining bolts are preferably tightened to lock the frame in place, with the taper adjusting bolt acting as a redundant measure to help maintain the level state.

Abstract: The present application discloses computing platforms and methods for performing location-based restriction of content transmission. In one implementation, such a computing platform includes a hardware processor and a memory storing a content protection software code. The hardware processor is configured to execute the content protection software code to obtain a media content including a cue for restricting broadcast of the media content, and to detect the cue in the media content. The hardware processor is further configured to execute the content protection software code to interpret the cue to identify a usage rule constraining the broadcast of the media content, and to restrict the broadcast of the media content based on the usage rule.

Abstract: Methods, systems, and computer readable media related to generating a three-dimensional model of a target object. A first source image, of a plurality of source images of a target object, is analyzed to identify a first region of the first image, the first region having attributes meeting one or more pre-defined criteria. The first region is marked for exclusion from use in generating a three-dimensional model of the target object. The three-dimensional model of the target object is generated using the plurality of source images. The marked first region is excluded in the generation of the three-dimensional model.

Abstract: There are provided systems and methods for performing image compensation using image enhancement effects. In one implementation, such a system includes a computing platform having a hardware processor and a memory storing an image compensation software code. The hardware processor is configured to execute the image compensation software code to receive image data corresponding to an event being viewed by a viewer in a venue, the image data obtained by a wearable augmented reality (AR) device worn by the viewer, and to detect a deficiency in an image included in the image data. The hardware processor is further configured to execute the image compensation software code to generate one or more image enhancement effect(s) for compensating for the deficiency in the image and to output the image enhancement effect(s) for rendering on a display of the wearable AR device while the viewer is viewing the event.

Abstract: There are provided systems and methods for providing event enhancement using augmented reality (AR) effects. In one implementation, such a system includes a computing platform having a hardware processor and a memory storing an AR effect generation software code. The hardware processor is configured to execute the AR effect generation software code to receive a venue description data corresponding to an event venue, to identify the event venue based on the venue description data, and to identify an event scheduled to take place at the event venue. The hardware processor is further configured to execute the AR effect generation software code to generate one or more AR enhancement effect(s) based on the event and the event venue, and to output the AR enhancement effect(s) for rendering on a display of a wearable AR device during the event.

Abstract: Systems and methods are provided for presenting visual media on a structure having a plurality of unordered light sources, e.g., fiber optic light sources, light emitting diodes (LEDs), etc. Visual media can be created based on a computer model of the structure. Images of the structure can be analyzed to determine the location of each of the light sources. A lookup table can be generated based on the image analysis, and used to correlate pixels of the visual media to one or more of the actual light sources. A visual media artist or designer need not have prior knowledge of the order/layout of the light sources on the structure in order to create visual media to be presented thereon.

Abstract: An acoustical screen that can be utilized in a variety of applications including as part of a projection screen to cover and hide the presence of an audio speaker. The acoustical screen is formed using multiple hole sizes, e.g., three or more hole diameters or outer dimensions if not round. These differently-sized holes are placed in pseudo-random positions so that there is no perceivable repeating pattern of hole placement in the acoustical screen. By avoiding an ordered grid of holes of a single diameter as in prior speaker grills, the new acoustical screen disguises the visible reflection pattern through non-uniformity. It also provides an improved acoustic transmission surface that allows sound with a greater variety of wavelengths to pass while reflecting a less pronounced echo. The acoustical screen will be in demand for use in entertainment venues using projection systems with speakers positioned behind a front projected screen.

Abstract: An acoustical screen that can be utilized in a variety of applications including as part of a projection screen to cover and hide the presence of an audio speaker. The acoustical screen is formed using multiple hole sizes, e.g., three or more hole diameters or outer dimensions if not round. These differently-sized holes are placed in pseudo-random positions so that there is no perceivable repeating pattern of hole placement in the acoustical screen. By avoiding an ordered grid of holes of a single diameter as in prior speaker grills, the new acoustical screen disguises the visible reflection pattern through non-uniformity. It also provides an improved acoustic transmission surface that allows sound with a greater variety of wavelengths to pass while reflecting a less pronounced echo. The acoustical screen will be in demand for use in entertainment venues using projection systems with speakers positioned behind a front projected screen.

Abstract: According to one implementation, an augmented reality image generation system includes a display, and a computing platform having a hardware processor and a system memory storing a software code. The hardware processor executes the software code to receive a camera image depicting one or more real-world object(s), and to identify one or more reference point(s) corresponding to the camera image, each of the reference point(s) having a predetermined real-world location. The software code further maps the real-world object(s) to their respective real-world location(s) based on the predetermined real-world location(s) of the reference point(s), merges the camera image with a virtual object to generate an augmented reality image including the real-world object(s) and the virtual object, and renders the augmented reality image on the display. The location of the virtual object in the augmented reality image is determined based on the real-world location(s) of the real-world object(s).

Abstract: Systems, devices, and methods are disclosed for compositing real-time, real-world video with virtual objects. An electronic device includes circuitry coupled to a memory storing instructions that, when executed, cause the circuitry to receive video of a given video capture region. The circuitry is caused to receive location information and camera information from the unmanned vehicle. The circuitry is caused to obtain a representation of a location of interest corresponding to the location of the unmanned vehicle. The circuitry is caused to display the representation. The circuitry is caused to obtain virtual objects. The circuitry is caused to place the virtual objects into the representation. The circuitry is caused to render the virtual objects and the video to generate a rendered video including rendered virtual objects in at least one frame of the video. The circuitry is caused to send the rendered video.

Abstract: An aircraft employs articulated, variable-position electric rotors having different operating configurations and transitions therebetween, as well as variable-pitch airfoils or blades, for generating vectored thrust in the different configurations. Control circuitry generates rotor position signals and blade pitch signals to independently control rotor thrust, rotor orientation and rotor blade pitch of the variable-position rotors in a manner providing (i) the transitions among the operating configurations for corresponding flight modes of the aircraft, which may include both vertical takeoff and landing (VTOL) mode as well as a forward-flight mode, and (ii) commanded thrust-vectoring maneuvering of the aircraft in the different configurations, including tailoring blade pitch to optimize aspects of aircraft performance.

Abstract: A low friction rehabilitation board having an integral band retaining feature is described. The rehabilitation board may have a coefficient of static friction of no more than about 0.5 and in some embodiments no more than about 0.06. The rehabilitation board has a plurality of band retaining feature configured along one or both ends and may be an integral band retaining features being formed in the board. Additionally, the rehabilitation may include one or more band retaining features on one or both sides of the board. The unique configuration of the band retaining features enables rehabilitation method heretofore not possible with a single board. Resistance bands may be retained in the band retaining features and coupled to a user's limb, such as a foot or ankle, to resist motion, such as sliding or extending the foot along the low friction surface of the rehabilitation board.

Abstract: Features of the surface of an object of interest captured in a two-dimensional (2D) image are identified and marked for use in point matching to align multiple 2D images and generating a point cloud representative of the surface of the object in a photogrammetry process. The features which represent actual surface features of the object may have their local contrast enhanced to facilitate their identification. Reflections on the surface of the object are suppressed by correlating such reflections with, e.g., light sources, not associated with the object of interest so that during photogrammetry, such reflections can be ignored, resulting in the creation of a 3D model that is an accurate representation of the object of interest. Prior to local contrast enhancement and the suppression of reflection information, identification and isolation of the object of interest can be improved through one or more filtering processes.

Abstract: The disclosure is directed toward stabilizing an image projected by a projector in an environment including vibrations or other movements that displace the projected image. In one set of implementations, an image projected by a projector may be stabilized by using an image stabilization system that detects a displacement of the projector from an equilibrium position and controls an optical element of the projector to offset the displacement. In an additional set of implementations, an image projected by the projector may be stabilized by using an image stabilization system that measures a rate of displacement from equilibrium of an image projected by the projector to predict a displacement of the projector and counteract the predicted displacement. In another set of implementations, an image projected by a projector may be stabilized by precalculating a plurality of lookup tables that correct for displacements of the projected image during operation of the projector.

Abstract: Pressure relief valves for use in high pressure underwater applications that may include a plunger, a body with a mating surface corresponding to the shape of a mating surface sub-section of the plunger, and one or more sealing elements, such as a pair of O-rings, are disclosed.

Abstract: A method of promoting hemostasis in the mouth or oral cavity utilizes a non-absorbent, low surface energy and highly conformable non-disruptive hemostasis material. Traditional wound packing material is highly absorbent and has large open surfaces that allow clot forming materials, such as the platelet plug to adhere to the packing material and whereupon removal, the clot is disrupted. A non-disruptive highly conformable hemostasis material does not have large open pores and therefore does not adhere to forming clots. A non-disruptive hemostasis material may consist of expanded polytetrafluoroethylene that has a pore size of no more than about 10 microns. A non-disruptive hemostasis material may comprise a thin film of material over a portion of the outside surface that is non-absorbent and thin to allow for conforming into an oral cavity, such as from a tooth extraction. A thin film may cover porous material, such as a foam, that may be elastomeric.

Abstract: Systems and methods for displaying object features via an AR device are disclosed. The method may include receiving, from a transmitter, a signal from an object on a movie set. The signal may specify object data. The object may be a prop. The object data may specify one or more features corresponding to the prop. The method may include generating, with the one or more physical computer processors and the one or more AR components, a representation of the one or more features using visual effects to depict at least some of the object data. The method may include displaying, via the AR device, the representation onto a view of the prop.

Abstract: Systems and methods for tracking objects in a field of view are disclosed. In one embodiment a method may include obtaining, from the non-transient electronic storage, object data. The object data may include a position of one or more objects as a function of time in a field of view. The method may include generating, with the one or more physical computer processors and the one or more AR components, a first virtual object to depict at least one or more of the object data of a first object at a first time. The method may include displaying, via the display, the first virtual object.

Abstract: The disclosure provides for a system of markers and methods of using the system of markers to provide a precise scene scale reference for captured aerial images. Each of the markers may include one or more pairs of aligned collimated light emitters, where each pair of light emitters is configured to emit two light beams that converge at a known distance from the marker. When two or more markers are used, the system of markers may be aligned in a unique physical orientation to form a shape of known dimensions (e.g., a line, a triangle, or square) that provides an accurate scene scale reference for captured images.