Patent application number | Description | Published |
20080291314 | IMAGING DEVICE WITH AUTO-FOCUS - A handheld portable imaging device ( | 11-27-2008 |
20140085492 | PREVENTING MOTION ARTIFACTS BY INTELLIGENTLY DISABLING VIDEO STABILIZATION - Digital video stabilization is selectively turned off in circumstances where it could actually decrease the quality of a captured video. A video camera includes a device for directly detecting physical motion of the camera. Motion data from the motion detector are analyzed to see if video stabilization is appropriate. If the motion data indicate that the video camera is stable, for example, then video stabilization is not applied to the video, thus preventing the possibility of introducing “motion artifacts” into the captured video. In another example, motion as detected by the motion detector can be compared with motion as detected by the video-stabilization engine. If the two motions disagree significantly, then the video-stabilization engine is probably responding more to motion in the captured video rather than to motion of the camera itself, and video stabilization should probably not be applied to the video. | 03-27-2014 |
20140085493 | PREVENTING MOTION ARTIFACTS BY INTELLIGENTLY DISABLING VIDEO STABILIZATION - Digital video stabilization is selectively turned off in circumstances where it could actually decrease the quality of a captured video. A video camera includes a device for directly detecting physical motion of the camera. Motion data from the motion detector are analyzed to see if video stabilization is appropriate. If the motion data indicate that the video camera is stable, for example, then video stabilization is not applied to the video, thus preventing the possibility of introducing “motion artifacts” into the captured video. In another example, motion as detected by the motion detector can be compared with motion as detected by the video-stabilization engine. If the two motions disagree significantly, then the video-stabilization engine is probably responding more to motion in the captured video rather than to motion of the camera itself, and video stabilization should probably not be applied to the video. | 03-27-2014 |
20150341546 | ENHANCED IMAGE CAPTURE - Disclosed are techniques that provide a “best” picture taken within a few seconds of the moment when a capture command is received (e.g., when the “shutter” button is pressed). In some situations, several still images are automatically (that is, without the user's input) captured. These images are compared to find a “best” image that is presented to the photographer for consideration. Video is also captured automatically and analyzed to see if there is an action scene or other motion content around the time of the capture command. If the analysis reveals anything interesting, then the video clip is presented to the photographer. The video clip may be cropped to match the still-capture scene and to remove transitory parts. Higher-precision horizon detection may be provided based on motion analysis and on pixel-data analysis. | 11-26-2015 |
20150341547 | ENHANCED IMAGE CAPTURE - Disclosed are techniques that provide a “best” picture taken within a few seconds of the moment when a capture command is received (e.g., when the “shutter” button is pressed). In some situations, several still images are automatically (that is, without the user's input) captured. These images are compared to find a “best” image that is presented to the photographer for consideration. Video is also captured automatically and analyzed to see if there is an action scene or other motion content around the time of the capture command. If the analysis reveals anything interesting, then the video clip is presented to the photographer. The video clip may be cropped to match the still-capture scene and to remove transitory parts. Higher-precision horizon detection may be provided based on motion analysis and on pixel-data analysis. | 11-26-2015 |
20150341548 | ENHANCED IMAGE CAPTURE - Disclosed are techniques that provide a “best” picture taken within a few seconds of the moment when a capture command is received (e.g., when the “shutter” button is pressed). In some situations, several still images are automatically (that is, without the user's input) captured. These images are compared to find a “best” image that is presented to the photographer for consideration. Video is also captured automatically and analyzed to see if there is an action scene or other motion content around the time of the capture command. If the analysis reveals anything interesting, then the video clip is presented to the photographer. The video clip may be cropped to match the still-capture scene and to remove transitory parts. Higher-precision horizon detection may be provided based on motion analysis and on pixel-data analysis. | 11-26-2015 |
20150341549 | ENHANCED IMAGE CAPTURE - Disclosed are techniques that provide a “best” picture taken within a few seconds of the moment when a capture command is received (e.g., when the “shutter” button is pressed). In some situations, several still images are automatically (that is, without the user's input) captured. These images are compared to find a “best” image that is presented to the photographer for consideration. Video is also captured automatically and analyzed to see if there is an action scene or other motion content around the time of the capture command. If the analysis reveals anything interesting, then the video clip is presented to the photographer. The video clip may be cropped to match the still-capture scene and to remove transitory parts. Higher-precision horizon detection may be provided based on motion analysis and on pixel-data analysis. | 11-26-2015 |
20150341561 | ENHANCED IMAGE CAPTURE - Disclosed are techniques that provide a “best” picture taken within a few seconds of the moment when a capture command is received (e.g., when the “shutter” button is pressed). In some situations, several still images are automatically (that is, without the user's input) captured. These images are compared to find a “best” image that is presented to the photographer for consideration. Video is also captured automatically and analyzed to see if there is an action scene or other motion content around the time of the capture command. If the analysis reveals anything interesting, then the video clip is presented to the photographer. The video clip may be cropped to match the still-capture scene and to remove transitory parts. Higher-precision horizon detection may be provided based on motion analysis and on pixel-data analysis. | 11-26-2015 |
Patent application number | Description | Published |
20110085175 | SURFACE MEASUREMENT, SELECTION, AND MACHINING - Systems, processes, articles of manufacture, and techniques may be used to measure a surface to be machined. In particular implementations, a representation of a surface to be machined may be determined. Measuring the surface may include measuring a plurality of surface points at each of a plurality of surface measurement locations with a measurement system moving over a surface and measuring the position of the measurement system. Determining a representation of the surface to be machined may include determining an estimated shape for the surface based on the surface measurements at the surface measurement locations. The surface measurements, the surface measurement locations, and the estimated shape may be stored in computer memory for future retrieval and use. | 04-14-2011 |
20110087363 | SURFACE MEASUREMENT, SELECTION, AND MACHINING - Systems, processes, articles of manufacture, and techniques may be used to facilitate the machining of a surface. In particular implementations, machining a surface may include machining a first surface location with an end effector that is part of a cart movable over the surface. Machining the surface may also include measuring the position of the end effector with a laser tracking system and generating commands for an actuator that positions the end effector. The commands may be based on the position of the end effector and a stored representation of a shape to be achieved by machining. | 04-14-2011 |
20110087457 | SURFACE MEASUREMENT, SELECTION, AND MACHINING - Systems, processes, articles of manufacture, and techniques may be used to determine a machining shape for a surface to be machined. In particular implementations, determining a machining shape may include retrieving stored surface measurements for a surface to be machined, the measurements representing the surface at a plurality of points for each of a number of measurement locations on the surface, and analyzing the measurements to determine a shape to which the surface should be machined. Determining a machining shape may also include determining the surface that may be achieved by machining to the determined shape, analyzing the determined surface to determine whether it is acceptable, and storing the determined shape based on whether the determined surface is acceptable. | 04-14-2011 |