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    • 1. 发明申请
    • 2D TO 3D USER INTERFACE CONTENT DATA CONVERSION
    • 2D到3D用户界面内容数据转换
    • WO2012021265A1
    • 2012-02-16
    • PCT/US2011/044524
    • 2011-07-19
    • SONY CORPORATIONYU, YangBLANCHARD, RobertRICHMAN, Steven
    • YU, YangBLANCHARD, RobertRICHMAN, Steven
    • G09G5/00
    • G06T15/08H04N13/128H04N13/183H04N13/261
    • A method of two dimensional (2D) content data conversion to three dimensional (3D) content data in a 3D television involves receiving 3D video content and 2D user interface content data via a 2D to 3D content conversion module. A displacement represented by disparity data that defines a separation of left eye and right eye data for 3D rendering of the 2D user interface content data is determined. The 3D video content is displayed on a display of the 3D television. 3D user interface content data is generated at a 3D depth on the display based upon the received 2D user interface content data and the determined displacement. This abstract is not to be considered limiting, since other embodiments may deviate from the features described in this abstract.
    • 在3D电视中将二维(2D)内容数据转换为三维(3D)内容数据的方法涉及通过2D至3D内容转换模块接收3D视频内容和2D用户界面内容数据。 确定用于界定用于2D用户界面内容数据的3D渲染的用于左眼和右眼数据的分离的视差数据表示的位移。 3D视频内容显示在3D电视的显示器上。 基于接收到的2D用户界面内容数据和确定的位移,在显示器上的3D深度处生成3D用户界面内容数据。 该摘要不被认为是限制性的,因为其它实施例可能偏离本摘要中描述的特征。
    • 2. 发明申请
    • DYNAMIC REFERENCE FRAME REORDERING FOR FRAME SEQUENTIAL STEREOSCOPIC VIDEO ENCODING
    • 帧顺序立体视频编码的动态参考帧重排
    • WO2011059856A2
    • 2011-05-19
    • PCT/US2010/055120
    • 2010-11-02
    • SONY CORPORATIONHONG, SeungwookYU, Yang
    • HONG, SeungwookYU, Yang
    • H04N19/114H04N19/149H04N19/172H04N19/46H04N19/597H04N19/61
    • Encoding of video sequences for frame sequential stereoscopic video, such as from spatially distinct right and left imagers. During the encoding process, reference frames are reordered if it is determined that reordering will increase the number of macroblocks (MBs) which can be skipped from the encoded output, or to otherwise increase coding efficiency. Then encoding is completed using motion prediction and entropy encoding for frame sequential stereoscopic video in response to the ordering of the reference frames. Side-information is encoded about reference frame sequencing within the sequential stereoscopic video output allowing a decoder to properly decode the reference frames. As a result the number of skipped MBs can be dramatically increased and the number of MBs referenced during motion prediction significantly reduced.
    • 用于帧顺序立体视频的视频序列的编码,例如从空间上不同的右和左成像器编码。 在编码过程中,如果确定重新排序会增加可从编码输出中跳过的宏块(MB)的数量,或者以其他方式提高编码效率,则参考帧被重新排序。 然后,响应于参考帧的排序,使用针对帧顺序立体视频的运动预测和熵编码来完成编码。 在连续立体视频输出内关于参考帧排序的侧面信息被编码,允许解码器正确解码参考帧。 结果,跳过的MB的数量可以显着增加,并且在运动预测期间引用的MB的数量显着减少。
    • 7. 发明申请
    • METHODS AND NODES IN A WIRELESS COMMUNICATION NETWORK
    • 无线通信网络中的方法和方法
    • WO2016188573A1
    • 2016-12-01
    • PCT/EP2015/061770
    • 2015-05-28
    • HUAWEI TECHNOLOGIES CO., LTD.YU, YangCALABRESE, Francesco Davide
    • YU, YangCALABRESE, Francesco Davide
    • H04W52/54H04W52/14H04W52/40
    • H04W52/545H04W52/146H04W52/40
    • A Controlling Network Node (130) and a method (500) therein, in a communication network (100), for providing a power control command for a RL (140-1, 140-2, …, 140-n) associated with a UE (120). The CNN (130) comprises a processing unit (820), configured to dedicate one set of power control bits (510-9) comprised in a DL dedicated physical channel slot (300), for RLs (140-1, 140-2, …, 140-n) communicating with any non-serving cell (320); set the dedicated set of power control bits (510-9) to an incrementing command; detect a RL (140- 1, 140-2, …, 140-n) for communication with any non-serving cell (320); assign the dedicated set of power control bits (510-9) to the detected RL (140-1, 140-2, …, 140-n); and provide the DL dedicated physical channel slot (300) to the UE (120).
    • 一种在通信网络(100)中的控制网络节点(130)和方法(500),用于为与(a)相关联的RL(140-1,140-2,...,140-n)提供功率控制命令 UE(120)。 CNN(130)包括处理单元(820),被配置为专用于包含在DL专用物理信道时隙(300)中的一组功率控制位(510-9),用于RL(140-1,140-2, ...,140-n)与任何非服务小区(320)通信; 将专用功率控制位组(510-9)设置为递增命令; 检测用于与任何非服务小区(320)通信的RL(140-1,140-2,...,140-n); 将专用的功率控制位集合(510-9)分配给检测到的RL(140-1,140-2,...,140-n); 并将DL专用物理信道时隙(300)提供给UE(120)。