| Patent application number | Description | Published |
|---|
| 20080225180 | Display Information Feedback - In general, in an aspect, the invention provides a multimedia entertainment system including a communication link, a video source coupled to the communication link and configured to produce a video signal and provide the video signal to the communication link, a video display coupled to the communication link and configured to receive the video signal from the video source via the communication link, and to provide dynamic display characteristic information indicative of a display capability of the video display to the video source via the communication link, wherein the video source is configured to receive the dynamic display characteristic information and to produce the video signal as a function of the dynamic display characteristic information, and wherein the video display is configured to display a video image in accordance with the video signal provided by the video source. | 09-18-2008 |
| 20080231711 | AUTOMATED COMPLIANCE TESTING FOR VIDEO DEVICES - A method of automated video device testing, and source and sink video devices are disclosed. A test signal may be provided by way of a video link from a video source to a video sink, over a video link extending therebetween. The method includes receiving on the video link a request from the video sink to provide the test signal; identifying based on the request, a requested test signal; providing the requested test signal from the video source to the video sink over the video link. In another embodiment, a video sink may be queried over a video link to determine a metric describing at least a portion of know video signal, as received and determined at the video sink to verify integrity of the video signal at the video sink. | 09-25-2008 |
| 20090147133 | METHOD AND APPARATUS FOR HIGH QUALITY VIDEO MOTION ADAPTIVE EDGE-DIRECTIONAL DEINTERLACING - A method for deinterlacing video includes constructing a temporary frame of deinterlaced video based on a first (i.e., current) field of interlaced video, wherein the temporary frame includes pixels in lines of the temporary frame associated with the first field of interlaced video, placeholder pixels in identified areas of motion in lines of the frame associated with a missing field of interlaced video, and pixels from an opposite field of polarity of interlaced video in areas without motion. The method further includes replacing the placeholder pixels in the identified areas of motion with pixels interpolated using an edge direction interpolation scheme based on pixels in the first field of interlaced video, resulting in a reconstructed frame. In one example, a motion adaptive interpolator may construct the temporary frame, and an edge directional interpolator may generate the reconstructed/deinterlaced the frame. | 06-11-2009 |
| 20090161009 | METHOD, APPARATUS AND MACHINE-READABLE MEDIUM FOR HANDLING INTERPOLATED VIDEO CONTENT - Spatial or temporal interpolation may be performed upon source video content to create interpolated video content. A video signal including the interpolated video content and non-interpolated video content (e.g. the source video content) may be generated. At least one indicator for distinguishing the non-interpolated video content from the interpolated video content may also be generated. The video signal and indicator(s) may be passed from a video source device to a video sink device. The received indicator(s) may be used to distinguish the non-interpolated video content from the interpolated video content in the received video signal. The non-interpolated video content may be used to “redo” the interpolation or may be recorded to a storage medium. | 06-25-2009 |
| 20090161017 | METHOD, APPARATUS AND MACHINE-READABLE MEDIUM FOR DESCRIBING VIDEO PROCESSING - An upstream video processor may perform video processing upon video data to created processed video data. The video processing may include at least one of color correction, contrast correction, gamma correction, sharpness enhancement, and edge enhancement. Metadata indicative of the performed video processing may also be generated. The processed video data and metadata may be passed to a downstream video processor, the latter for use in determining what further video processing, if any, to apply. An intermediate video processor may receive video data and metadata indicating video processing performed thereupon by an upstream video processor. Based on the received metadata, additional video processing may be performed, and new metadata indicating the additional video processing may be generated. Composite metadata may be generated from the received and new metadata and may be passed along with the processed video data to a downstream video processor for use in determining what further video processing, if any, to apply. | 06-25-2009 |
| 20090162029 | ADJUSTING VIDEO PROCESSING IN A SYSTEM HAVING A VIDEO SOURCE DEVICE AND A VIDEO SINK DEVICE - One of a video source device and a video sink device may: (a) deactivate a video processing function at the one device and send a command for causing the other of the video source device and the video sink device to activate the video processing function; (b) activate the video processing function at the one device and send a command for causing the other device to deactivate the video processing function; and (c) based on user input indicating whether (a) or (b) resulted in a preferred video image, effect (a) or (b). The one device may receive an indication of video processing functions of which the other device is capable, such that (a), (b) and (c) may be performed for each indicated video processing function of which the one device is also capable. A user interface including at least one selectable control for indicating whether a video image resulting from (a) or (b) is preferred may be displayed. | 06-25-2009 |
| 20110157302 | THREE-DIMENSIONAL VIDEO DISPLAY SYSTEM WITH MULTI-STREAM SENDING/RECEIVING OPERATION - A three-dimensional processing circuit includes a multi-stream 3D image sender that produces packet based multi-stream information that includes a first stream that has first eye view information, such as left eye frame information and a second stream that includes corresponding second eye view information, such as right eye frame information, for display on a single display, wherein each stream comprises a same object viewed from differing view perspectives. In one example, the multi-stream information is communicated as packetized data over a single cable, for example wherein a packet includes both the left eye and right eye information. In addition, the encoder provides as part of the multi-stream information, control information indicating that the first and second streams are for a single display. In one example, the multi-streams are communicated concurrently so that the single display can display stereoscopic left and right eye frame information. A corresponding receiver is also disclosed that decodes the packet based multi-stream information and combines the decoded left eye frame information and corresponding right eye information for a 3D viewing effect. In one example this may be based on control information associated with the packet based multi-stream information. Related methods are also set forth. | 06-30-2011 |
