Patent application number | Description | Published |
20120162384 | Three-Dimensional Collaboration - Remote collaboration of a subject and a graphics object in a same view of a 3D scene. In one embodiment, one or more cameras of a collaboration system may be configured to capture images of a subject and track the subject (e.g., head of a user, other physical object). The images may be processed and provided to another collaboration system along with a determined viewpoint of the user. The other collaboration system may be configured to render and display the captured images and a graphics object in the same view of a 3D scene. | 06-28-2012 |
20130271575 | Dynamically Controlling an Imaging Microscopy System - System and method for controlling an imaging microscopy system (IMS). A control module may be coupled to an IMS configured to capture an image of a specified region of a specimen based on a specified perspective by controlling the specimen's position and/or orientation relative to an image capture subsystem of the IMS corresponding to the specified perspective. A | 10-17-2013 |
20140032423 | COMMUNITY BASED DIGITAL CONTENT AUDITING AND STREAMING - In one embodiment, a system and method is illustrated and includes receiving auditing data relating to a piece of digital content, associating the auditing data with the piece of digital content to create audited digital content, receiving a content request pertaining to the audited digital content from a requester, checking a permission associated with the audited digital content, the permission to determine an exchange basis upon which the audited digital content is provided to the requester, and where the exchange basis defines the condition upon which the audited digital content may be accessed, and providing the audited digital content to the requester according to the exchange basis. | 01-30-2014 |
20140317575 | Zero Parallax Drawing within a Three Dimensional Display - Systems and methods for digitally drawing on virtual 3D object surfaces using a 3D display system. A 3D drawing mode may be enabled and a display screen of the system may correspond to a zero parallax plane of a 3D scene that may present a plurality of surfaces at non-zero parallax planes. User input may be received at a location on the display screen, and in response, a surface may be specified, rendered, and displayed at the zero parallax plane. Further, additional user input on the display screen may be received specifying drawing motion across the rendered and displayed surface. The drawing motion may start at the location and continue across a boundary between the surface and another contiguous surface. Accordingly, in response to the drawing motion crossing the boundary, the contiguous surface may be rendered and displayed at the zero parallax plane along with results of the drawing motion. | 10-23-2014 |
20150123891 | METHODS FOR AUTOMATICALLY ASSESSING USER HANDEDNESS IN COMPUTER SYSTEMS AND THE UTILIZATION OF SUCH INFORMATION - In some embodiments, a system and/or method may assess handedness of a user of a system in an automated manner. The method may include displaying a 3D image on a display. The 3D image may include at least one object. The method may include tracking a position and an orientation of an input device in open space in relation to the 3D image. The method may include assessing a handedness of a user based on the position and the orientation of the input device with respect to at least one of the objects. In some embodiments, the method may include configuring at least a portion of the 3D image based upon the assessed handedness. The at least a portion of the 3D image may include interactive menus. In some embodiments, the method may include configuring at least a portion of an interactive hardware associated with the system based upon the assessed handedness. | 05-07-2015 |
20150138189 | SYSTEM AND METHODS FOR CLOUD BASED 3D DESIGN AND COLLABORATION - In some embodiments, a system and/or method may include accessing three-dimensional (3D) imaging software on a remote server. The method may include accessing over a network a 3D imaging software package on a remote server using a first system. The method may include assessing, using the remote server, a capability of the first system to execute the 3D imaging software package. The method may include displaying an output of the 3D imaging software using the first system based upon the assessed capabilities of the first system. In some embodiments, the method may include executing a first portion of the 3D imaging software using the remote server based upon the assessed capabilities of the first system. In some embodiments, the method may include executing a second portion of the 3D imaging software using the first system based upon the assessed capabilities of the first system. | 05-21-2015 |
20150363964 | 3D DESIGN AND COLLABORATION OVER A NETWORK - In some embodiments, a system and/or method may include accessing three-dimensional (3D) imaging software on a remote server. The method may include accessing over a network a 3D imaging software package on a remote server using a first system. The method may include assessing, using the remote server, a capability of the first system to execute the 3D imaging software package. The method may include displaying an output of the 3D imaging software using the first system based upon the assessed capabilities of the first system. In some embodiments, the method may include executing a first portion of the 3D imaging software using the remote server based upon the assessed capabilities of the first system. In some embodiments, the method may include executing a second portion of the 3D imaging software using the first system based upon the assessed capabilities of the first system. | 12-17-2015 |
20150371428 | NETWORK BASED 3D DESIGN AND COLLABORATION - In some embodiments, a system and/or method may include accessing three-dimensional (3D) imaging software on a remote server. The method may include accessing over a network a 3D imaging software package on a remote server using a first system. The method may include assessing, using the remote server, a capability of the first system to execute the 3D imaging software package. The method may include displaying an output of the 3D imaging software using the first system based upon the assessed capabilities of the first system. In some embodiments, the method may include executing a first portion of the 3D imaging software using the remote server based upon the assessed capabilities of the first system. In some embodiments, the method may include executing a second portion of the 3D imaging software using the first system based upon the assessed capabilities of the first system. | 12-24-2015 |