Patent application number | Description | Published |
20100274918 | STREAM DATA MULTIPLEXING DEVICE AND MULTIPLEXING METHOD - A comparative time of a first data stream accumulated in a buffer memory is compared with a comparative time of a second data stream (S113). If the comparative time of the first data stream is earlier, the first data stream is multiplexed (S114). On the other hand, if the comparative time of the first data stream is later, the first data stream is not immediately multiplexed. When a data stream is accumulated in a buffer memory, the comparative time of the data stream is a multiplexing reference time indicating the timing of reproduction of the data stream, which is obtained based on time information contained in the data stream or the like (S116). On the other hand, when a data stream is not accumulated in a buffer memory, a multiplexing predicted time which is predicted as the multiplexing reference time of a data stream which is to be next accumulated is used as the comparative time of the data stream (S117). As a result, data streams which should be simultaneously reproduced can be easily sorted and multiplexed even when smaller-size buffers are employed. | 10-28-2010 |
20100290536 | MOVING IMAGE TRANSMISSION/RECEPTION SYSTEM - An image transmission device ( | 11-18-2010 |
20120300836 | VIDEO SIGNAL CODING APPARATUS AND VIDEO SIGNAL CODING METHOD - A video signal coding apparatus includes a coding unit which codes and re-codes a video signal and includes: a coding processing unit which codes, slice-by-slice, a current picture indicated by the video signal, to generate coded data; an integration unit which calculates a code-integrated value indicating a code amount of the coded data; a coding result determination unit which determines that re-coding of the current picture is necessary when determining that the code-integrated value is grater than a threshold; and a re-coding control unit which specifies a slice to be re-coded, based on coding information indicating a feature of the coded data, when it is determined that the re-coding is necessary, and the coding processing unit further re-codes the slice specified by the re-coding control unit. | 11-29-2012 |
20120327254 | IMAGE STABILIZATION SYSTEM - An image stabilization system includes: a region vector detection unit configured to detect a motion vector of each of a plurality of regions in an image; a reliability determination unit configured to determine reliability of the motion vector of each of the regions; a region indicator configured to indicate, to the region vector detection unit, a new detection target region instead of a region whose motion vector is determined to have low reliability; an image vector computing unit configured to compute a motion vector of the entire image using a motion vector determined to have high reliability; and a stabilization unit configured to move an entire image to be output according to the motion vector of the entire image to compensate for sway of the image. | 12-27-2012 |
Patent application number | Description | Published |
20090011676 | Component Bonding Method and Component Bonding Device - Provided is a component bonding method with higher bonding precision in a process of bonding an electrode of a component to an electrode formed on a flat panel. A preliminary press bonding device includes: a control unit which includes a position displacement amount correction unit to which a position displacement amount after the press bonding process is fed back and which corrects the position displacement on the next component to be preliminarily bonded; and a component position determining unit which determines a position of the component using the fed back correction amount. On the other hand, a press bonding device includes a bonding recognition device for use in the recognition of positions of the electrodes on the flat panel and the component. The bonding recognition device includes a position displacement amount calculating unit which calculates the position displacement amount based on the recognized position information. | 01-08-2009 |
20100220918 | INSPECTION APPARATUS AND INSPECTION METHOD - Aims to provide an inspection apparatus which precisely detects an amount of misalignment of a component mounted on a panel through an adhesive which contains conductive particles. The inspection apparatus includes: an infrared-light illuminator ( | 09-02-2010 |
20100296721 | INSPECTION APPARATUS AND INSPECTION METHOD - An object of the present invention is to provide an inspection apparatus and an inspection method for precisely detecting an amount of misalignment of a component mounted on a panel through an adhesive which contains conductive particles. An inspection apparatus according to an implementation of the present invention detects an amount of misalignment, from a predetermined mounting position, of a component mounted on a surface of a panel through an ACF. The inspection apparatus includes: an infrared light illuminator which illuminates with an infrared light a panel recognition mark and a component recognition mark, the panel recognition mark being formed on the surface of the panel, and the component recognition mark being formed on a surface of the component; an IR camera which is provided opposite the infrared light illuminator in relation to the panel, and captures an image of the panel recognition mark and an image of the component recognition mark which are illuminated with the infrared light; and an amount of misalignment calculation unit which calculates, using the images captured by the IR camera, an amount of misalignment in a positional relationship between the panel recognition mark and the component recognition mark from a predetermined positional relationship, and an optical axis of the infrared light illuminator is inclined with respect to a normal found on the surfaces of the panel or the component. | 11-25-2010 |