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公开(公告)号:US20180084278A1
公开(公告)日:2018-03-22
申请号:US15827098
申请日:2017-11-30
Applicant: Dolby Laboratories Licensing Corporation
Inventor: Alexandros Tourapis , Walter J. Husak , Peshala V. Pahalawatta , Athanasios Leontaris
IPC: H04N19/597 , H04N13/00 , H04N19/587 , H04N19/85
CPC classification number: H04N19/597 , H04N13/161 , H04N13/194 , H04N19/112 , H04N19/16 , H04N19/176 , H04N19/33 , H04N19/46 , H04N19/587 , H04N19/60 , H04N19/61 , H04N19/85 , H04N21/2365 , H04N21/2383 , H04N21/4347 , H04N21/4382
Abstract: Sampled data is packaged in checkerboard format for encoding and decoding. The sampled data may be quincunx sampled multi-image video data (e.g., 3D video or a multi-program stream), and the data may also be divided into sub-images of each image which are then multiplexed, or interleaved, in frames of a video stream to be encoded and then decoded using a standardized video encoder. A system for viewing may utilize a standard video decoder and a formatting device that de-interleaves the decoded sub-images of each frame reformats the images for a display device. A 3D video may be encoded using a most advantageous interleaving format such that a preferred quality and compression ratio is reached. In one embodiment, the invention includes a display device that accepts data in multiple formats.
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公开(公告)号:US20180070071A1
公开(公告)日:2018-03-08
申请号:US15808675
申请日:2017-11-09
Applicant: Dolby Laboratories Licensing Corporation
Inventor: Walter J. Husak , David Ruhoff , Alexandros Tourapis , Athanasios Leontaris
CPC classification number: H04N13/161 , H04N13/139 , H04N13/15 , H04N13/194 , H04N19/00 , H04N19/59 , H04N19/597 , H04N19/60 , H04N19/61
Abstract: Stereoscopic images are subsampled and placed in a “checkerboard” pattern in an image. The image is encoded in a monoscopic video format. The monoscopic video is transmitted to a device where the “checkerboard” is decoded. Portions of the checkerboard (e.g., “black” portions) are used to reconstruct one of the stereoscopic images and the other portion of the checkerboard (e.g., “white” portions) are used to reconstruct the other image. The subsamples are, for example, taken from the image in a location coincident to the checkerboard position in which the subsamples are encoded.
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公开(公告)号:US09877045B2
公开(公告)日:2018-01-23
申请号:US14951216
申请日:2015-11-24
Applicant: Dolby Laboratories Licensing Corporation
Inventor: Alexandros Tourapis , Athanasios Leontaris , Peshala V. Pahalawatta
IPC: G06K9/36 , H04N19/59 , H04N13/00 , H04N19/597 , H04N19/122 , H04N19/16 , H04N19/14
CPC classification number: H04N19/59 , H04N13/156 , H04N19/122 , H04N19/14 , H04N19/16 , H04N19/597 , H04N2013/0081
Abstract: A device includes a coder or a codec configured for interleaved image data utilizing diamond shaped blocks for motion estimation and/or motion compensation and utilizing square or orthogonal transforms of residual data. In various embodiments, the decoder may be configured, among others, to perform de-blocking on edges of the diamond shaped blocks and/or data padding at boundaries of the image data.
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公开(公告)号:US09843785B2
公开(公告)日:2017-12-12
申请号:US15625854
申请日:2017-06-16
Applicant: Dolby Laboratories Licensing Corporation
Inventor: Walter J. Husak , David Ruhoff , Alexandros Tourapis , Athanasios Leontaris
CPC classification number: H04N13/161 , H04N13/139 , H04N13/15 , H04N13/194 , H04N19/00 , H04N19/59 , H04N19/597 , H04N19/60 , H04N19/61
Abstract: Stereoscopic images are subsampled and placed in a “checkerboard” pattern in an image. The image is encoded in a monoscopic video format. The monoscopic video is transmitted to a device where the “checkerboard” is decoded. Portions of the checkerboard (e.g., “black” portions) are used to reconstruct one of the stereoscopic images and the other portion of the checkerboard (e.g., “white” portions) are used to reconstruct the other image. The subsamples are, for example, taken from the image in a location coincident to the checkerboard position in which the subsamples are encoded.
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公开(公告)号:US20170289520A1
公开(公告)日:2017-10-05
申请号:US15625854
申请日:2017-06-16
Applicant: Dolby Laboratories Licensing Corporation
Inventor: Walter J. Husak , David Ruhoff , Alexandros Tourapis , Athanasios Leontaris
CPC classification number: H04N13/161 , H04N13/139 , H04N13/15 , H04N13/194 , H04N19/00 , H04N19/59 , H04N19/597 , H04N19/60 , H04N19/61
Abstract: Stereoscopic images are subsampled and placed in a “checkerboard” pattern in an image. The image is encoded in a monoscopic video format. The monoscopic video is transmitted to a device where the “checkerboard” is decoded. Portions of the checkerboard (e.g., “black” portions) are used to reconstruct one of the stereoscopic images and the other portion of the checkerboard (e.g., “white” portions) are used to reconstruct the other image. The subsamples are, for example, taken from the image in a location coincident to the checkerboard position in which the subsamples are encoded.
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Patent Agency Ranking
公开(公告)号:US09699454B2
公开(公告)日:2017-07-04
申请号:US14938653
申请日:2015-11-11
Applicant: Dolby Laboratories Licensing Corporation
Inventor: Athanasios Leontaris , Alexandros Tourapis
IPC: H04N19/102 , H04N19/177 , H04N7/12 , H04N11/02 , H04N11/04 , H04L12/70 , H04N19/115 , H04N19/14 , H04N19/192 , H04N19/436
CPC classification number: H04N19/146 , H04N19/102 , H04N19/115 , H04N19/14 , H04N19/154 , H04N19/177 , H04N19/192 , H04N19/436
Abstract: Rate control techniques are provided for encoding an input video sequence into a compressed coded bitstream with multiple coding passes. The final coding pass may comprise final splices with non-overlapping frames that do not extend into neighboring final splices. A final splice in the final coding pass may correspond to at least one non-final splice in a non-final coding pass. A non-final splice may have overlapping frames that extend into neighboring final splices in the final coding pass. The overlapping frames in the non-final splice may be used to derive complexity information about the neighboring final splices. The complexity information about the neighboring final splices, as derived from the overlapping frames, may be used to allocate or improve rate control related budgets in encoding the final splice into the compressed coded bitstream in the final coding pass.
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87.发明申请公开(公告)号:US20160080772A1
公开(公告)日:2016-03-17
申请号:US14951216
申请日:2015-11-24
Applicant: Dolby Laboratories Licensing Corporation
Inventor: Alexandros Tourapis , Athanasios Leontaris , Peshala V. Pahalawatta
IPC: H04N19/59 , H04N19/14 , H04N19/597
CPC classification number: H04N19/59 , H04N13/156 , H04N19/122 , H04N19/14 , H04N19/16 , H04N19/597 , H04N2013/0081
Abstract: A device includes a coder or a codec configured for interleaved image data utilizing diamond shaped blocks for motion estimation and/or motion compensation and utilizing square or orthogonal transforms of residual data. In various embodiments, the decoder may be configured, among others, to perform de-blocking on edges of the diamond shaped blocks and/or data padding at boundaries of the image data.
Abstract translation: 一种设备包括编码器或编解码器,其被配置为利用用于运动估计和/或运动补偿的菱形块的交错图像数据,并且利用残差数据的正方或正交变换。 在各种实施例中,解码器可以被配置为在菱形块的边缘上执行解块和/或在图像数据的边界处执行数据填充。
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公开(公告)号:US20160065957A1
公开(公告)日:2016-03-03
申请号:US14938653
申请日:2015-11-11
Applicant: Dolby Laboratories Licensing Corporation
Inventor: Athanasios Leontaris , Alexandros Tourapis
IPC: H04N19/102 , H04N19/177
CPC classification number: H04N19/146 , H04N19/102 , H04N19/115 , H04N19/14 , H04N19/154 , H04N19/177 , H04N19/192 , H04N19/436
Abstract: Rate control techniques are provided for encoding an input video sequence into a compressed coded bitstream with multiple coding passes. The final coding pass may comprise final splices with non-overlapping frames that do not extend into neighboring final splices. A final splice in the final coding pass may correspond to at least one non-final splice in a non-final coding pass. A non-final splice may have overlapping frames that extend into neighboring final splices in the final coding pass. The overlapping frames in the non-final splice may be used to derive complexity information about the neighboring final splices. The complexity information about the neighboring final splices, as derived from the overlapping frames, may be used to allocate or improve rate control related budgets in encoding the final splice into the compressed coded bitstream in the final coding pass.
Abstract translation: 提供了速率控制技术,用于将输入视频序列编码成具有多个编码遍的压缩编码比特流。 最终的编码通道可以包括具有不延伸到相邻的最终接头中的非重叠帧的最终接合。 最终编码通路中的最终拼接可以对应于非最终编码通道中的至少一个非最终拼接。 在最终的编码过程中,非最终的拼接可以具有延伸到相邻的最终拼接中的重叠的帧。 非最终拼接中的重叠帧可用于导出关于相邻最终拼接的复杂度信息。 关于从重叠帧导出的邻近最终拼接的复杂性信息可用于在最终编码通过中将最终拼接编码为压缩编码比特流中的速率控制相关预算分配或改进。
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89.发明申请公开(公告)号:US20140286433A1
公开(公告)日:2014-09-25
申请号:US14349590
申请日:2012-10-18
Applicant: DOLBY LABORATORIES LICENSING CORPORATION
Inventor: Yuwen He , Alexandros Tourapis , Peng Yin
CPC classification number: H04N19/56 , H04N19/107 , H04N19/139 , H04N19/176 , H04N19/29 , H04N19/52 , H04N19/53 , H04N19/557 , H04N19/567 , H04N19/573 , H04N19/61 , H04N19/91
Abstract: Systems and methods for hierarchical motion estimation are described. The hierarchical motion estimation may provide motion information and pixel correlation among temporal pictures at different resolutions, which may be utilized in motion related video processing applications such as video coding, motion compensation based denoising, interpolation, and others to improve the quality and/or speed of motion predictions. Systems and methods of video processing that include pre- and post-processing utilizing information from hierarchical motion estimations are also discussed. Specifically, systems and methods of video processing with hierarchical motion estimation instead of or in addition to other motion estimations are shown.
Abstract translation: 描述了分层运动估计的系统和方法。 分层运动估计可以在不同分辨率的时间图像之间提供运动信息和像素相关性,其可以用于运动相关视频处理应用中,例如视频编码,基于运动补偿的去噪,插值等,以提高质量和/或速度 的运动预测。 还讨论了包括使用来自分级运动估计的信息的前处理和后处理的视频处理的系统和方法。 具体地说,显示了具有分层运动估计的视频处理的系统和方法,而不是或除了其他运动估计之外。
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公开(公告)号:US20140247888A1
公开(公告)日:2014-09-04
申请号:US14342523
申请日:2012-09-27
Applicant: Dolby Laboratories Licensing Corporation
Inventor: Alexandros Tourapis , Athanasios Leontaris
IPC: H04N19/80
CPC classification number: H04N19/80 , H04N19/132 , H04N19/137 , H04N19/139 , H04N19/159 , H04N19/172 , H04N19/192 , H04N19/436 , H04N19/51 , H04N19/53 , H04N19/557 , H04N19/587 , H04N19/61 , H04N19/86 , H04N19/87
Abstract: A method and system for reduced complexity motion compensated temporal processing for pre-analysis purposes. The processing complexity is reduced by reducing the number of pictures processed for analysis, reducing the number of references used for analysis, and/or spatially subsampling input pictures.
Abstract translation: 用于预分析目的的减少复杂度运动补偿时间处理的方法和系统。 通过减少处理用于分析的图像的数量,减少用于分析的参考文献的数量和/或在空间上对输入图像进行子采样来减少处理复杂度。
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