Patent application number | Description | Published |
20090251685 | Lens System - A fragmented lens system for creating an invisible light pattern useful to computer vision systems is disclosed. Random or semi-random dot patterns generated by the present system allow a computer to uniquely identify each patch of a pattern projected by a corresponding illuminator or light source. The computer may determine the position and distance of an object by identifying the illumination pattern on the object. | 10-08-2009 |
20100026624 | INTERACTIVE DIRECTED LIGHT/SOUND SYSTEM - An interactive directed beam system is provided. In one implementation, the system includes a projector, a computer and a camera. The camera is configured to view and capture information in an interactive area. The captured information may take various forms, such as, an image and/or audio data. The captured information is based on actions taken by an object, such as, a person within the interactive area. Such actions include, for example, natural movements of the person and interactions between the person and an image projected by the projector. The captured information from the camera is then sent to the computer for processing. The computer performs one or more processes to extract certain information, such as, the relative location of the person within the interactive area for use in controlling the projector. Based on the results generated by the processes, the computer directs the projector to adjust the projected image accordingly. The projected image can move anywhere within the confines of the interactive area. | 02-04-2010 |
20100039500 | Self-Contained 3D Vision System Utilizing Stereo Camera and Patterned Illuminator - A self-contained hardware and software system that allows reliable stereo vision to be performed. The vision hardware for the system, which includes a stereo camera and at least one illumination source that projects a pattern into the camera's field of view, may be contained in a single box. This box may contain mechanisms to allow the box to remain securely and stay in place on a surface such as the top of a display. The vision hardware may contain a physical mechanism that allows the box, and thus the camera's field of view, to be tilted upward or downward in order to ensure that the camera can see what it needs to see. | 02-18-2010 |
20100060722 | DISPLAY WITH BUILT IN 3D SENSING - Information from execution of a vision processing module may be used to control a 3D vision system. | 03-11-2010 |
20100121866 | INTERACTIVE DISPLAY MANAGEMENT SYSTEMS AND METHODS - An interactive display management device for managing content to be displayed on each of a plurality of interactive display devices is configured to receive respective content items from each of one or more content clients. Interactive display devices transmit interaction data indicating interactions between one or more body parts of users or objects held by users and virtual objects displayed on respective interactive display devices to the display management device, and the display management device is configured to determine, based at least on the interaction data received from one or more interactive display devices, playlists for respective interactive display devices, wherein the playlists indicate one or more content item to be displayed on the respective display device. | 05-13-2010 |
20120200843 | LENS SYSTEM - A fragmented lens system for creating an invisible light pattern useful to computer vision systems is disclosed. Random or semi-random dot patterns generated by the present system allow a computer to uniquely identify each patch of a pattern projected by a corresponding illuminator or light source. The computer may determine the position and distance of an object by identifying the illumination pattern on the object. | 08-09-2012 |
20120287044 | PROCESSING OF GESTURE-BASED USER INTERACTIONS USING VOLUMETRIC ZONES - Systems and methods for processing gesture-based user interactions within an interactive display area are provided. The display of one or more virtual objects and user interactions with the one or more virtual objects may be further provided. Multiple interactive areas may be created by partitioning an area proximate a display into multiple volumetric spaces or zones. The zones may be associated with respective user interaction capabilities. A representation of a user on the display may change as the ability of the user to interact with one or more virtual object changes. | 11-15-2012 |
20120317511 | DISPLAY WITH BUILT IN 3D SENSING CAPABILITY AND GESTURE CONTROL OF TV - Information from execution of a vision processing module may be used to control a 3D vision system. | 12-13-2012 |
20130004060 | CAPTURING AND ALIGNING MULTIPLE 3-DIMENSIONAL SCENES - The capture and alignment of multiple 3D scenes is disclosed. Three dimensional capture device data from different locations is received thereby allowing for different perspectives of 3D scenes. An algorithm uses the data to determine potential alignments between different 3D scenes via coordinate transformations. Potential alignments are evaluated for quality and subsequently aligned subject to the existence of sufficiently high relative or absolute quality. A global alignment of all or most of the input 3D scenes into a single coordinate frame may be achieved. The presentation of areas around a particular hole or holes takes place thereby allowing the user to capture the requisite 3D scene containing areas within the hole or holes as well as part of the surrounding area using, for example, the 3D capture device. The new 3D captured scene is aligned with existing 3D scenes and/or 3D composite scenes. | 01-03-2013 |
20130342533 | MULTI-MODAL METHOD FOR INTERACTING WITH 3D MODELS - The present disclosure concerns a methodology that allows a user to “orbit” around a model on a specific axis of rotation and view an orthographic floor plan of the model. A user may view and “walk through” the model while staying at a specific height above the ground with smooth transitions between orbiting, floor plan, and walking modes. | 12-26-2013 |
20140044343 | IDENTIFYING AND FILLING HOLES ACROSS MULTIPLE ALIGNED THREE-DIMENSIONAL SCENES - The capture and alignment of multiple 3D scenes is disclosed. Three dimensional capture device data from different locations is received thereby allowing for different perspectives of 3D scenes. An algorithm uses the data to determine potential alignments between different 3D scenes via coordinate transformations. Potential alignments are evaluated for quality and subsequently aligned subject to the existence of sufficiently high relative or absolute quality. A global alignment of all or most of the input 3D scenes into a single coordinate frame may be achieved. The presentation of areas around a particular hole or holes takes place thereby allowing the user to capture the requisite 3D scene containing areas within the hole or holes as well as part of the surrounding area using, for example, the 3D capture device. The new 3D captured scene is aligned with existing 3D scenes and/or 3D composite scenes. | 02-13-2014 |
20140044344 | BUILDING A THREE-DIMENSIONAL COMPOSITE SCENE - The capture and alignment of multiple 3D scenes is disclosed. Three dimensional capture device data from different locations is received thereby allowing for different perspectives of 3D scenes. An algorithm uses the data to determine potential alignments between different 3D scenes via coordinate transformations. Potential alignments are evaluated for quality and subsequently aligned subject to the existence of sufficiently high relative or absolute quality. A global alignment of all or most of the input 3D scenes into a single coordinate frame may be achieved. The presentation of areas around a particular hole or holes takes place thereby allowing the user to capture the requisite 3D scene containing areas within the hole or holes as well as part of the surrounding area using, for example, the 3D capture device. The new 3D captured scene is aligned with existing 3D scenes and/or 3D composite scenes. | 02-13-2014 |
20140347495 | LENS SYSTEM - A fragmented lens system for creating an invisible light pattern useful to computer vision systems is disclosed. Random or semi-random dot patterns generated by the present system allow a computer to uniquely identify each patch of a pattern projected by a corresponding illuminator or light source. The computer may determine the position and distance of an object by identifying the illumination pattern on the object. | 11-27-2014 |
Patent application number | Description | Published |
20140043436 | Capturing and Aligning Three-Dimensional Scenes - Systems and methods for building a three-dimensional composite scene are disclosed. Certain embodiments of the systems and methods may include the use of a three-dimensional capture device that captures a plurality of three-dimensional images of an environment. Some embodiments may further include elements concerning aligning and/or mapping the captured images. Various embodiments may further include elements concerning reconstructing the environment from which the images were captured. The methods disclosed herein may be performed by a program embodied on a non-transitory computer-readable storage medium when executed the program is executed a processor. | 02-13-2014 |
20140125658 | CAPTURING AND ALIGNING THREE-DIMENSIONAL SCENES - Systems and methods for building a three-dimensional composite scene are disclosed. Certain embodiments of the systems and methods may include the use of a three-dimensional capture device that captures a plurality of three-dimensional images of an environment. Some embodiments may further include elements concerning aligning and/or mapping the captured images. Various embodiments may further include elements concerning reconstructing the environment from which the images were captured. The methods disclosed herein may be performed by a program embodied on a non-transitory computer-readable storage medium when executed the program is executed a processor. | 05-08-2014 |
20140125767 | CAPTURING AND ALIGNING THREE-DIMENSIONAL SCENES - Systems and methods for building a three-dimensional composite scene are disclosed. Certain embodiments of the systems and methods may include the use of a three-dimensional capture device that captures a plurality of three-dimensional images of an environment. Some embodiments may further include elements concerning aligning and/or mapping the captured images. Various embodiments may further include elements concerning reconstructing the environment from which the images were captured. The methods disclosed herein may be performed by a program embodied on a non-transitory computer-readable storage medium when executed the program is executed a processor. | 05-08-2014 |
20140125768 | CAPTURING AND ALIGNING THREE-DIMENSIONAL SCENES - Systems and methods for building a three-dimensional composite scene are disclosed. Certain embodiments of the systems and methods may include the use of a three-dimensional capture device that captures a plurality of three-dimensional images of an environment. Some embodiments may further include elements concerning aligning and/or mapping the captured images. Various embodiments may further include elements concerning reconstructing the environment from which the images were captured. The methods disclosed herein may be performed by a program embodied on a non-transitory computer-readable storage medium when executed the program is executed a processor. | 05-08-2014 |
20140125769 | CAPTURING AND ALIGNING THREE-DIMENSIONAL SCENES - Systems and methods for building a three-dimensional composite scene are disclosed. Certain embodiments of the systems and methods may include the use of a three-dimensional capture device that captures a plurality of three-dimensional images of an environment. Some embodiments may further include elements concerning aligning and/or mapping the captured images. Various embodiments may further include elements concerning reconstructing the environment from which the images were captured. The methods disclosed herein may be performed by a program embodied on a non-transitory computer-readable storage medium when executed the program is executed a processor. | 05-08-2014 |
20140125770 | CAPTURING AND ALIGNING THREE-DIMENSIONAL SCENES - Systems and methods for building a three-dimensional composite scene are disclosed. Certain embodiments of the systems and methods may include the use of a three-dimensional capture device that captures a plurality of three-dimensional images of an environment. Some embodiments may further include elements concerning aligning and/or mapping the captured images. Various embodiments may further include elements concerning reconstructing the environment from which the images were captured. The methods disclosed herein may be performed by a program embodied on a non-transitory computer-readable storage medium when executed the program is executed a processor. | 05-08-2014 |