Patent application number | Description | Published |
20090142173 | TRANSPORT VEHICLE HAVING TENSION/COMPRESSION SYSTEM - A vehicle that includes a first self propelled steerable structure having a first portion, a second self propelled steerable structure having a second portion and a tensioning device connected to the first and second self propelled steerable structures. Whereby the tensioning device is configured to allow a load to be compressed and lifted between the first self propelled steerable structure and the second self propelled steerable structure. | 06-04-2009 |
20090143985 | SYSTEM AND METHOD FOR MAINTAINING THE RELATIVE DISTANCE BETWEEN TWO VEHICLES - A system that includes a first self propelled steerable vehicle having a first end and a second end, a second self propelled steerable vehicle having a first end and a second end and an electronic device that maintains a relative position between at least one of the first end and the second end of the first self propelled steerable vehicle and at least one of the first end and the second end of the second self propelled steerable vehicle. | 06-04-2009 |
20090222354 | ENROLLMENT APPARATUS, SYSTEM, AND METHOD - An apparatus for enrolling a package is disclosed including: a receiving surface for receiving the package; at least one weight sensor in communication with the receiving surface which generates a weight signal indicative of the weight of the package; at least one video camera which generates a video signal indicative of an image of the package on the receiving surface; and a processor in communication with the at least one weight sensor and the at least one video camera. The processor includes: a weight module which produces, in response to the weight signal, weight data indicative of the weight of the package; and a dimension capture module which produces in response to the video signal, dimension data indicative of the size of the package. In some embodiments the processor further includes a recognition module which produces, in response to the video signal character data indicative of one or more characters present on the package. | 09-03-2009 |
20120162413 | ENROLLMENT APPARATUS, SYSTEM, AND METHOD - An apparatus for enrolling a package is disclosed including: a receiving surface for receiving the package; at least one weight sensor in communication with the receiving surface which generates a weight signal indicative of the weight of the package; at least one video camera which generates a video signal indicative of an image of the package on the receiving surface; and a processor in communication with the at least one weight sensor and the at least one video camera. The processor includes: a weight module which produces, in response to the weight signal, weight data indicative of the weight of the package; and a dimension capture module which produces, in response to the video signal, dimension data indicative of the size of the package. In some embodiments, the processor further includes a recognition module which produces, in response to the video signal, character data indicative of one or more characters present on the package. | 06-28-2012 |
20130076522 | ADAPTIVE TRACKING SYSTEM FOR SPATIAL INPUT DEVICES - An adaptive tracking system for spatial input devices provides real-time tracking of spatial input devices for human-computer interaction in a Spatial Operating Environment (SOE). The components of an SOE include gestural input/output; network-based data representation, transit, and interchange; and spatially conformed display mesh. The SOE comprises a workspace occupied by one or more users, a set of screens which provide the users with visual feedback, and a gestural control system which translates user motions into command inputs. Users perform gestures with body parts and/or physical pointing devices, and the system translates those gestures into actions such as pointing, dragging, selecting, or other direct manipulations. The tracking system provides the requisite data for creating an immersive environment by maintaining a model of the spatial relationships between users, screens, pointing devices, and other physical objects within the workspace. | 03-28-2013 |
20130076616 | ADAPTIVE TRACKING SYSTEM FOR SPATIAL INPUT DEVICES - An adaptive tracking system for spatial input devices provides real-time tracking of spatial input devices for human-computer interaction in a Spatial Operating Environment (SOE). The components of an SOE include gestural input/output; network-based data representation, transit, and interchange; and spatially conformed display mesh. The SOE comprises a workspace occupied by one or more users, a set of screens which provide the users with visual feedback, and a gestural control system which translates user motions into command inputs. Users perform gestures with body parts and/or physical pointing devices, and the system translates those gestures into actions such as pointing, dragging, selecting, or other direct manipulations. The tracking system provides the requisite data for creating an immersive environment by maintaining a model of the spatial relationships between users, screens, pointing devices, and other physical objects within the workspace. | 03-28-2013 |
20130076617 | ADAPTIVE TRACKING SYSTEM FOR SPATIAL INPUT DEVICES - An adaptive tracking system for spatial input devices provides real-time tracking of spatial input devices for human-computer interaction in a Spatial Operating Environment (SOE). The components of an SOE include gestural input/output; network-based data representation, transit, and interchange; and spatially conformed display mesh. The SOE comprises a workspace occupied by one or more users, a set of screens which provide the users with visual feedback, and a gestural control system which translates user motions into command inputs. Users perform gestures with body parts and/or physical pointing devices, and the system translates those gestures into actions such as pointing, dragging, selecting, or other direct manipulations. The tracking system provides the requisite data for creating an immersive environment by maintaining a model of the spatial relationships between users, screens, pointing devices, and other physical objects within the workspace. | 03-28-2013 |
20140035805 | SPATIAL OPERATING ENVIRONMENT (SOE) WITH MARKERLESS GESTURAL CONTROL - A Spatial Operating Environment (SOE) with markerless gestural control includes a sensor coupled to a processor that runs numerous applications. A gestural interface application executes on the processor. The gestural interface application receives data from the sensor that corresponds to a hand of a user detected by the sensor, and tracks the hand by generating images from the data and associating blobs in the images with tracks of the hand. The gestural interface application detects a pose of the hand by classifying each blob as corresponding to an object shape. The gestural interface application generates a gesture signal in response to a gesture comprising the pose and the tracks, and controls the applications with the gesture signal. | 02-06-2014 |
20140195988 | OPERATING ENVIRONMENT COMPRISING MULTIPLE CLIENT DEVICES, MULTIPLE DISPLAYS, MULTIPLE USERS, AND GESTURAL CONTROL - Embodiments described herein includes a system comprising a processor coupled to display devices, sensors, remote client devices, and computer applications. The computer applications orchestrate content of the remote client devices simultaneously across at least one of the display devices and the remote client devices, and allow simultaneous control of the display devices. The simultaneous control includes automatically detecting a gesture of at least one object from gesture data received via the sensors. The gesture data is absolute three-space location data of an instantaneous state of the at least one object at a point in time and space. The detecting comprises aggregating the gesture data, and identifying the gesture using only the gesture data. The computer applications translate the gesture to a gesture signal, and control at least one of the display devices and the remote client devices in response to the gesture signal. | 07-10-2014 |
20140211982 | ENROLLMENT APPARATUS, SYSTEM, AND METHOD - An apparatus for enrolling a package is disclosed including: a receiving surface for receiving the package; at least one weight sensor in communication with the receiving surface which generates a weight signal indicative of the weight of the package; at least one video camera which generates a video signal indicative of an image of the package on the receiving surface; and a processor in communication with the at least one weight sensor and the at least one video camera. The processor includes: a weight module which produces, in response to the weight signal, weight data indicative of the weight of the package; and a dimension capture module which produces, in response to the video signal, dimension data indicative of the size of the package. In some embodiments, the processor further includes a recognition module which produces, in response to the video signal, character data indicative of one or more characters present on the package. | 07-31-2014 |
20140351073 | ENROLLMENT APPARATUS, SYSTEM, AND METHOD FEATURING THREE DIMENSIONAL CAMERA - An apparatus for enrolling a package is disclosed including: a receiving surface for receiving the package; at least one weight sensor in communication with the receiving surface which generates a weight signal indicative of the weight of the package; at least one RGB video camera which generates a first video signal indicative of an image of the package on the receiving surface; at least one infrared three-dimensional camera which generates a second video signal indicative of an the dimensions of the package; and a processor in communication with the at least one weight sensor and the at least one video camera. | 11-27-2014 |
20150054729 | REMOTE DEVICES USED IN A MARKERLESS INSTALLATION OF A SPATIAL OPERATING ENVIRONMENT INCORPORATING GESTURAL CONTROL - Embodiments described herein includes a system comprising a processor coupled to display devices, sensors, remote client devices, and computer applications. The computer applications orchestrate content of the remote client devices simultaneously across the display devices and the remote client devices, and allow simultaneous control of the display devices. The simultaneous control includes automatically detecting a gesture of at least one object from gesture data received via the sensors. The detecting comprises identifying the gesture using only the gesture data. The computer applications translate the gesture to a gesture signal, and control the display devices in response to the gesture signal. | 02-26-2015 |
20150077326 | OPERATING ENVIRONMENT WITH GESTURAL CONTROL AND MULTIPLE CLIENT DEVICES, DISPLAYS, AND USERS - Embodiments described herein includes a system comprising a processor coupled to display devices, sensors, remote client devices, and computer applications. The computer applications orchestrate content of the remote client devices simultaneously across the display devices and the remote client devices, and allow simultaneous control of the display devices. The simultaneous control includes automatically detecting a gesture of at least one object from gesture data received via the sensors. The detecting comprises identifying the gesture using only the gesture data. The computer applications translate the gesture to a gesture signal, and control the display devices in response to the gesture signal. | 03-19-2015 |