Patent application number | Description | Published |
20120120207 | IMAGE PLAYBACK DEVICE AND DISPLAY DEVICE - An image playback device includes a playback portion which plays back content data to make a video stereoscopically viewed by means of video data including first and second images for first and second view points, respectively; a setting portion which sets a playback speed for playing back the content data; and an adjuster which adjusts parallax information about parallax between the first and second images in response to the playback speed set by the setting portion. | 05-17-2012 |
20120163788 | Stereoscopic Imaging Device - Stereoscopic imaging device that can take stereo images with the parallax between the left and right eyes being accurately established is afforded. The stereoscopic imaging device ( | 06-28-2012 |
20120163789 | Optical Element Holder and Stereoscopic Imaging Device Utilizing the Holder - Afforded is an optical element holder allowing high-accuracy stereo images to be taken. The holder includes: a rectangular parallelepiped beam splitter ( | 06-28-2012 |
20120163790 | Stereo-Image Photographing Apparatus - A stereo-image photographing apparatus enabling readily, short time-span realization of lens-barrel optical-axis adjustment in left- and right-eye imaging devices is afforded. The apparatus includes: a beam splitter having an incident surface of rectangular form, on which imaging light from a photographic subject is incident, an optically functional surface that reflects first imaging light, being a portion of incident imaging light, in a direction paralleling the shorter side of the rectangular form and that passes second imaging light being the remaining portion of the incident imaging light, a first light-exit surface through which the first imaging light exits, and a second light-exit surface through which the second imaging light exits; a first lens barrel directly facing the first light-exit surface; a second lens barrel directly facing the second light-exit surface; a first imaging device mounted on the first lens barrel; and a second imaging device mounted on the second lens barrel. | 06-28-2012 |
20120163791 | Stereoscopic Imaging Device - A small-sized stereo-image taking apparatus that includes a small-sized beam splitter for splitting in two the imaging light from a photographic subject and that makes it possible to take both telephotographic-range and wide-angle-range images is afforded. The stereo-image taking apparatus includes: an optical element having an optically functional surface splitting in two the imaging light from a photographic subject; first and second telescopic lens barrels having telescoping functionality; first and second imaging devices mounted on the first and second telescopic lens barrels, for generating first and second images on the basis of first and second imaging light constructing images through the first and second telescopic lens barrels; and first and second moveable sections causing the first and second imaging devices to parallel-shift optical-axis-wise in accordance with extension/retraction of the first and second telescopic lens barrels. | 06-28-2012 |
20120235992 | STEREOSCOPIC IMAGE PROCESSING APPARATUS AND STEREOSCOPIC IMAGE PROCESSING METHOD - A stereoscopic image processing apparatus includes an input/output interface operable to obtain a stereoscopic image including images at least at two view points, a parallax information detector operable to obtain parallax information about a parallax value for at least one of an upper region including an upper end and a lower region including a lower end of the obtained stereoscopic image, a display method setting unit operable to set a display method of an image on the region for which the parallax information is obtained, based on the parallax information about the region, an signal processor operable to process the image of the stereoscopic image on the region for which the parallax information is obtained, based on the set display method, and an signal processor operable to output a new stereoscopic image obtained based on the processed result. | 09-20-2012 |
20120236126 | IMAGE PICKUP DEVICE, IMAGE PICKUP METHOD, PROGRAM, AND INTEGRATED CIRCUIT - A conventional stereo image pickup device forms an appropriate stereo image by changing the stereo base in accordance with the distance to a subject, but fails to select an appropriate focal length or stereo base by simply using the subject distance without obtaining the subject size. A stereo image pickup device ( | 09-20-2012 |
20120242803 | STEREO IMAGE CAPTURING DEVICE, STEREO IMAGE CAPTURING METHOD, STEREO IMAGE DISPLAY DEVICE, AND PROGRAM - A conventional device adjusts the convergence angle of its imaging unit in a manner that the left-and-right face detection areas are at the same coordinates and thus forms a stereo image that will be placed on a display screen during display, but fails to place a subject at an intended stereoscopic position. A stereo image capturing device ( | 09-27-2012 |
20130222376 | STEREO IMAGE DISPLAY DEVICE - A stereo image display device includes an image input unit that obtains image data representing a stereo image, a display unit that displays an image based on the image data, an operation unit that receives pointing position on an image displayed on the display unit, an information calculator that obtains parallax information on a portion corresponding to the position pointed by the operation unit in the image data, and a controller that controls the display unit to display the parallax information obtained as well as the image. The display unit displays the parallax information in a format representing a magnitude and a direction of parallax. The operation unit receives a command for changing the magnitude of parallax represented by the parallax information. The controller changes a magnitude of parallax on the portion corresponding to the pointed position in the image data based on the changing command received by the operation unit. | 08-29-2013 |
20130242065 | THREE-DIMENSIONAL VIDEO PROCESSING APPARATUS AND THREE-DIMENSIONAL VIDEO PROCESSING METHOD - A three-dimensional video processing apparatus includes: a video obtaining unit which obtains a 3D video for three-dimensional viewing; a position obtaining unit which obtains a position of a first area which is an area included in a part of the 3D video; a disparity obtaining unit which obtains disparity amounts of the 3D video; a determination unit which determines a size of an enlargement area; and an area selection unit which selects, as the enlargement area, at least one second area that has disparity amounts within a predetermined range, includes the first area, and has a size determined by the determination unit. | 09-19-2013 |
20130272677 | IMAGE FILE GENERATION DEVICE, IMAGE FILE REPRODUCTION DEVICE, AND IMAGE FILE GENERATION METHOD - An image file generation device includes an image obtaining unit configured to obtain data of a stereoscopic image enabling stereovision, an parallax information obtaining unit configured to obtain parallax information for each of sub-regions (divided regions) of an entire region of the stereoscopic image, and a file generator configured to generate an image file including a data part which stores data of the stereoscopic image obtained by the image obtaining unit and a header part which stores management data for the data of the stereoscopic image stored in the data part. The file generator stores, in the header part, parallax information for each sub-region and information on a method of dividing the region, for each sub-region. | 10-17-2013 |
20150085918 | IMAGE CODING DEVICE, IMAGE CODING METHOD, AND IMAGE CODING INTEGRATED CIRCUIT - When compression encoding processing of an image is performed in units of macroblocks using a pipeline structure, an application of a skip mode or the like according to MPEG4AVC to compression encode an encoding target block requires motion vectors and the like of adjacent blocks of the encoding target block. However, depending on a structure of the pipeline stages, the motion vectors may not be determined. In such cases, the skip mode cannot be applied to compression encode the encoding target block. This problem can be solved by (i) calculating all motion information candidates, of the encoding target block, corresponding to all motion information selectable by a previous block of the encoding target block, and (ii) selecting, as the motion information of the encoding target block in the skip mode, the motion information corresponding to the motion information determined for the previous block. | 03-26-2015 |