Patent application number | Description | Published |
20130201104 | MULTI-USER INTERACTIVE DISPLAY SYSTEM - A multi-user interactive display system including a soft-copy display including at least an information display region and a command control region, and a digital image capture system positioned to capture a time sequence of images of users located in a field-of-view of the soft-copy display. A time sequence of images is analyzed to detect a plurality of users, and at least one of the users is designated to be a controlling user. The captured images are displayed in the command control region, wherein the detected users are demarked using graphical elements. The captured time sequence of images is analyzed to detect a gesture made by the controlling user and content displayed in the information display region is updated accordingly. | 08-08-2013 |
20130201105 | METHOD FOR CONTROLLING INTERACTIVE DISPLAY SYSTEM - A method for controlling a multi-user interactive display system including a soft-copy display including at least an information display region and a command control region, and a digital image capture system positioned to capture a time sequence of images of users located in a field-of-view of the soft-copy display. A time sequence of images is analyzed to detect a plurality of users, and at least one of the users is designated to be a controlling user. The captured images are displayed in the command control region, wherein the detected users are demarked using graphical elements. The captured time sequence of images is analyzed to detect a gesture made by the controlling user and content displayed in the information display region is updated accordingly. | 08-08-2013 |
20130204707 | INTERACTIVE DIGITAL ADVERTISING SYSTEM - A interactive digital advertising system including a soft-copy display including at least an information display region and a command control region, a digital image capture system positioned to capture a time sequence of images of users located in a field-of-view of the soft-copy display, and a storage memory storing a library of advertisements. A time sequence of images is analyzed to detect a plurality of users, and at least one of the users is designated to be a controlling user. The captured images are displayed in the command control region, wherein the detected users are demarked using graphical elements. The captured time sequence of images is analyzed to determine one or more demographic attributes relating to the designated controlling user, and a particular advertisement from the library of advertisements is selected and displayed in the information display region responsive to the determined demographic information. | 08-08-2013 |
20130215220 | FORMING A STEREOSCOPIC VIDEO - A method for forming a stereoscopic video of a scene from first and second input digital videos captured using respective first and second digital video cameras, wherein the first and second input digital videos include overlapping scene content and overlapping time durations. The method includes determining camera positions for each frame of the first and second input digital videos, and determining first-eye and second-eye viewpoints for each frame of the stereoscopic video. First-eye and second-eye images are formed for each frame of the stereoscopic video responsive to the corresponding video frames in the first and second input digital videos and the associated camera positions. | 08-22-2013 |
20130215221 | KEY VIDEO FRAME SELECTION METHOD - A method for selecting key video frames from a digital video captured using a digital video camera, the digital video including a temporal sequence of video frames. The method includes determining a camera position of the digital video camera for each video frame, and fitting a smoothed camera path to the camera positions. A sequence of target camera positions spaced out along the smoothed camera path is determined such that a corresponding set of target video frames has at least a target level of overlapping scene content. A set of key video frames are selected from the temporal sequence of video frames based on the target camera positions; | 08-22-2013 |
20130215233 | 3D SCENE MODEL FROM COLLECTION OF IMAGES - A method for determining a three-dimensional model of a scene from a collection of digital images, wherein the collection includes a plurality of digital images captured from a variety of camera positions. A set of the digital images from the collection are selected, wherein each digital image contains overlapping scene content with at least one other digital image in the set of digital images, and wherein the set of digital images overlap to cover a contiguous portion of the scene. Pairs of digital images from the set of digital images to determine a camera position for each digital image. A set of target camera positions is determined to provide a set of target digital images having at least a target level of overlapping scene content. The target digital images are analyzed using a three-dimensional reconstruction process to determine a three-dimensional model of the scene. | 08-22-2013 |
20140101958 | DRYER WITH HEATING LIQUID IN CAVITY - A media drying system removes a moistening liquid from a moistened medium. A heating member rotatable around an axis has a liquid-blocking layer with an inner surface and an outer surface. A backing layer affixed to the liquid-blocking layer defines a liquid cavity not including the axis. A heating liquid heated above a moistening-liquid boiling point is sealed between the liquid-blocking layer and the backing layer and in contact with the inner surface. A media-transport system transports the moistened medium so it contacts or is entrained around the liquid-blocking member. The moistened medium contacts the outer surface of the liquid-blocking layer, heat is transferred through the liquid-blocking layer from the warmed heating liquid to the moistening liquid, and the moistening liquid is vaporized and removed from the moistened medium. | 04-17-2014 |
20140101968 | REMOVING MOISTENING LIQUID USING HEATING-LIQUID BARRIER - A method for removing a moistening liquid from a moistened medium includes providing a liquid-blocking barrier having a first surface and a second surface that is impermeable to a heating liquid. A surface of the moistened medium is brought into contact with the first surface of the liquid-blocking barrier. The heating liquid is brought into contact with the second surface of the liquid-blocking barrier, the heating liquid being at a temperature greater than a moistening-liquid boiling point. Heat is thus transferred through the liquid-blocking barrier from the heating liquid to the moistening liquid, vaporizing the moistening liquid and removing it from the moistened medium. | 04-17-2014 |
20140104354 | BARRIER DRYER WITH POROUS LIQUID-CARRYING MATERIAL - A media drying system removes a moistening liquid from a moistened medium. A liquid reservoir containing a heating liquid heated above a moistening-liquid boiling point. A rotatable liquid-blocking member has a liquid-blocking layer with an inner surface and an outer surface. A media-transport system transports the moistened medium so it contacts or is entrained around the liquid-blocking member in a path zone so that the moistened medium is brought into contact with the outer surface of the liquid-blocking layer. A porous material absorbs heating liquid from the liquid reservoir and brings the absorbed heating liquid into contact with the inner surface of the liquid-blocking layer for at least a portion of the path zone. Heat is transferred through the liquid-blocking layer from the absorbed warmed heating liquid to the moistening liquid, vaporizing the moistening liquid and removing it from the moistened medium. | 04-17-2014 |
20140119791 | TONER FIXER WITH HEATING LIQUID IN CAVITY - A toner fixing system has a heating member rotatable around an axis. The heating member includes a liquid-blocking barrier and a backing layer that define a liquid cavity not including the axis. The liquid cavity contains a heating liquid warmed above a glass transition temperature of the toner. A media-transport system transports the receiver medium along a transport path in which the receiver medium contacts or is entrained around the liquid-blocking barrier. Heat is transferred through the liquid-blocking barrier from the warmed heating liquid to the toner, raising a temperature of the toner to a level above the toner glass transition temperature. | 05-01-2014 |
20140119796 | FIXING TONER USING HEATING-LIQUID-BLOCKING BARRIER - A method for fixing toner onto a receiver medium includes depositing a pattern of toner onto a surface of the receiver medium. A liquid-blocking barrier is provided that has a first surface and a second surface that is impermeable to a heating liquid. The surface of the receiver medium is brought into contact with the first surface of the liquid-blocking barrier. The heating liquid is brought into contact with the second surface of the liquid-blocking barrier. The heating liquid is at a temperature greater than the toner glass transition temperature. Heat is transferred through the liquid-blocking barrier from the heating liquid to the toner, thereby raising the temperature of the toner to a temperature above the toner glass transition temperature. | 05-01-2014 |
20140119797 | TONER FIXER WITH LIQUID-CARRYING POROUS MATERIAL - A toner fixing system has a heating member rotatable around an axis. The heating member includes a liquid-blocking barrier and a backing layer that define a liquid cavity not including the axis. The liquid cavity contains a heating liquid warmed above a glass transition temperature of the toner. A media-transport system transports the receiver medium along a transport path in which the receiver medium contacts or is entrained around the liquid-blocking barrier. Heat is transferred through the liquid-blocking barrier from the warmed heating liquid to the toner, raising a temperature of the toner to a level above the toner glass transition temperature. | 05-01-2014 |
20140140621 | IMAGE RECTIFICATION USING AN ORIENTATION VECTOR FIELD - This invention is a method for rectifying an input digital image including warped textual information. The method includes analyzing the input digital image to determine local orientations for a plurality of local image regions and determining an orientation vector field by interpolating between the determined local orientations for a lattice of positions. A set of streamlines are determined responsive to the orientation vector field. A global deformation function is formed by interpolating between the streamlines and is used to form a rectified image. | 05-22-2014 |
20140140627 | IMAGE RECTIFICATION USING SPARSELY-DISTRIBUTED LOCAL FEATURES - This invention is a method for rectifying an input digital image including warped textual information. The method includes analyzing the input digital image to locate a plurality of local features, at least some of the local features including textual features. A sparse set of local image regions are located corresponding to reliable combinations of spatially-consecutive local features, and corresponding local orientations are determined. A global deformation function is formed by interpolating between the determined local orientations and is used to form a rectified image. | 05-22-2014 |
20140140635 | IMAGE RECTIFICATION USING TEXT LINE TRACKS - This invention is a method for rectifying an input digital image including warped textual information. The method includes analyzing the input digital image to determine a plurality of text line traces that track along with the warped textual lines in a substantially parallel fashion. The input digital image is subdivided into a plurality of vertical slices, each having associated first and second slice edges and an associated slice width. Vertical slice deformation models are formed for the vertical slices by identifying a plurality of text line traces that cross a particular vertical slice, and fitting a parametric function that predicts second-edge vertical coordinates for the text line traces as a function of corresponding first-edge vertical coordinates. A plurality of streamlines are formed responsive to the vertical slice deformation models. A global deformation function is formed by interpolating between the streamlines and is used to form a rectified image | 05-22-2014 |