会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 22. 发明授权
    • Video coding using transforms bigger than 4×4 and 8×8
    • 使用大于4×4和8×8的变换的视频编码
    • US08483285B2
    • 2013-07-09
    • US12508434
    • 2009-07-23
    • Yan YePeisong ChenMarta Karczewicz
    • Yan YePeisong ChenMarta Karczewicz
    • H04N11/02
    • H04N19/44H04N19/122H04N19/132H04N19/176H04N19/46H04N19/60H04N19/61H04N19/70
    • In a video processing system, a method and system for applying transforms larger than 8×8 and non-rectangular transforms, and generating transform size syntax elements indicative of the transforms for video decoding are provided. The transform size syntax element may be generated by an encoder based on a prediction block size of a video block and the contents of the video block. Further, the transform size syntax element may be generated according to a set of rules to select from 4×4, 8×8, and larger transform sizes during an encoding process. A decoder may perform an inverse transform based on the transform size syntax element and the rules used by the encoder. The transform size syntax element may be transmitted to the decoder as part of the encoded video bitstream.
    • 在视频处理系统中,提供了一种用于应用大于8×8和非矩形变换的变换以及生成表示用于视频解码的变换的变换大小语法元素的方法和系统。 转换大小语法元素可以由编码器基于视频块的预测块大小和视频块的内容来生成。 此外,可以根据一组规则来生成变换大小语法元素,以在编码处理期间从4×4,8×8和更大的变换大小进行选择。 解码器可以基于变换大小语法元素和编码器使用的规则执行逆变换。 变换大小语法元素可以作为编码视频比特流的一部分被发送到解码器。
    • 24. 发明授权
    • Video compression using adaptive variable length codes
    • 视频压缩采用自适应可变长度码
    • US08275045B2
    • 2012-09-25
    • US11743998
    • 2007-05-03
    • Yan YeYiliang Bao
    • Yan YeYiliang Bao
    • H04N7/12
    • H04N19/34H04N19/13H04N19/174H04N19/186H04N19/187
    • Adaptive variable length coding techniques may be used for entropy coding of residual block coefficients produced by predictive video coding. The techniques may be applied to schemes that code positions of nonzero transform coefficients using zero runs. Coding parameters such as end of block (EOB) shift and VLC codebook selection tables may be maintained as internal states, instead of sending them with coded video slice data. Table entries may be periodically updated based on statistics collected during a coding pass. A special EOB shift table may adapt the position of a special EOB symbol in a symbol set to probability of significant coefficients with magnitude greater than one for a coding condition, such as a coding cycle. Chroma blocks may be coded independently of luma blocks using separate EOB shift, special EOB shift, and VLC codebook selection tables.
    • 自适应可变长度编码技术可以用于由预测性视频编码产生的残差块系数的熵编码。 这些技术可以应用于使用零运行来编码非零变换系数的位置的方案。 可以将诸如块结束(EOB)移位和VLC码本选择表的编码参数保持为内部状态,而不是用编码的视频片段数据发送它们。 可以基于在编码过程期间收集的统计信息周期性地更新表格条目。 特殊的EOB移位表可以将符号集合中的特殊EOB符号的位置适应于诸如编码周期的编码条件的幅度大于1的有效系数的概率。 色度块可以使用独立的EOB移位,特殊EOB移位和VLC码本选择表独立于亮度块进行编码。
    • 25. 发明授权
    • Thin film transistors using multiple active channel layers
    • 使用多个有源沟道层的薄膜晶体管
    • US08258511B2
    • 2012-09-04
    • US12411195
    • 2009-03-25
    • Yan Ye
    • Yan Ye
    • H01L29/04H01L29/10
    • H01L29/7869H01L21/02521H01L21/02554H01L21/02565H01L21/02631
    • Embodiments disclosed herein generally relate to TFTs and methods of fabricating the TFTs. In TFTs, the active channel carries the current between the source and drain electrodes. By tailoring the composition of the active channel, the current can be controlled. The active channel may be divided into three layers, a gate control layer, a bulk layer, and an interface control layer. The separate layers may have different compositions. Each of the gate control, bulk and interface control layers may additionally comprise multiple layers that may have different compositions. The composition of the various layers of the active channel comprise oxygen, nitrogen, and one or more elements selected from the group consisting of zinc, indium, cadmium, tin, gallium and combinations thereof. By varying the composition among the layers, the mobility, carrier concentration and conductivity of the various layers may be controlled to produce a TFT having desired properties.
    • 本文公开的实施例一般涉及TFT和制造TFT的方法。 在TFT中,有源沟道承载源极和漏极之间的电流。 通过调整有源通道的组成,可以控制电流。 有源信道可以分为三层,一个门控制层,一块体层,一个接口控制层。 单独的层可以具有不同的组成。 栅极控制,块体和界面控制层中的每一个可另外包括可具有不同组成的多个层。 活性通道的各层的组成包括氧,氮和选自锌,铟,镉,锡,镓及其组合的一种或多种元素。 通过改变层之间的组成,可以控制各层的迁移率,载流子浓度和电导率,以产生具有期望性能的TFT。
    • 26. 发明申请
    • VIDEO CODING WITH FINE GRANULARITY SPATIAL SCALABILITY
    • 视频编码具有细微的空间尺度
    • US20120201301A1
    • 2012-08-09
    • US13446864
    • 2012-04-13
    • Yiliang BaoYan Ye
    • Yiliang BaoYan Ye
    • H04N7/32H04N7/34
    • H04N19/34H04N19/105H04N19/159H04N19/33H04N19/59H04N19/61
    • The disclosure is directed to video coding techniques that support spatial scalability using a generalized fine granularity scalability (FGS) approach. Various degrees of spatial scalability can be achieved by sending spatially scalable enhancement layers in a generalized FGS format. Spatially scalable enhancement bitstreams can be arbitrarily truncated to conform to network conditions, channel conditions and/or decoder capabilities. Coding coefficients and syntax elements for spatial scalability can be embedded in a generalized FGS format. For good network or channel conditions, and/or enhanced decoder capabilities, additional bits received via one or more enhancement layers permit encoded video to be reconstructed with increased spatial resolution and continuously improved video quality across different spatial resolutions. The techniques permit spatial scalability layers to be coded as FGS layers, rather than discrete layers, permitting arbitrary scalability. The techniques may include features to curb error propagation that may otherwise arise due to partial decoding.
    • 本公开涉及使用广义细粒度可伸缩性(FGS)方法来支持空间可伸缩性的视频编码技术。 可以通过以广义的FGS格式发送空间可缩放的增强层来实现不同程度的空间可伸缩性。 空间可缩放的增强比特流可以被任意地截断以符合网络条件,信道条件和/或解码器能力。 用于空间可扩展性的编码系数和语法元素可以嵌入广义的FGS格式。 对于良好的网络或信道条件和/或增强的解码器能力,经由一个或多个增强层接收到的附加比特允许以增加的空间分辨率重建经过编码的视频并且跨越不同的空间分辨率连续改善视频质量。 这些技术允许空间可扩展性层被编码为FGS层,而不是离散层,允许任意的可扩展性。 这些技术可以包括抑制由于部分解码而可能出现的误差传播的特征。
    • 28. 发明授权
    • Capacitively coupled plasma reactor with magnetic plasma control
    • 具有磁等离子体控制的电容耦合等离子体反应器
    • US07955986B2
    • 2011-06-07
    • US11360944
    • 2006-02-23
    • Daniel J. HoffmanMatthew L. MillerJang Gyoo YangHeeyeop ChaeMichael BarnesTetsuya IshikawaYan Ye
    • Daniel J. HoffmanMatthew L. MillerJang Gyoo YangHeeyeop ChaeMichael BarnesTetsuya IshikawaYan Ye
    • H05H1/40C23C16/00C23C16/505C23C16/52H01L21/3065
    • H01J37/32091H01J37/3244H01J37/32623H01J37/3266
    • A plasma reactor includes a vacuum enclosure including a side wall and a ceiling defining a vacuum chamber, and a workpiece support within the chamber and facing the ceiling for supporting a planar workpiece, the workpiece support and the ceiling together defining a processing region between the workpiece support and the ceiling. Process gas inlets furnish a process gas into the chamber. A plasma source power electrode is connected to an RF power generator for capacitively coupling plasma source power into the chamber for maintaining a plasma within the chamber. The reactor further includes at least a first overhead solenoidal electromagnet adjacent the ceiling, the overhead solenoidal electromagnet, the ceiling, the side wall and the workpiece support being located along a common axis of symmetry. A current source is connected to the first solenoidal electromagnet and furnishes a first electric current in the first solenoidal electromagnet whereby to generate within the chamber a magnetic field which is a function of the first electric current, the first electric current having a value such that the magnetic field increases uniformity of plasma ion density radial distribution about the axis of symmetry near a surface of the workpiece support.
    • 等离子体反应器包括真空外壳,其包括限定真空室的侧壁和顶板,以及腔室内的工件支撑件,并面向天花板以支撑平面工件,工件支撑件和天花板一起限定了工件之间的加工区域 支持和天花板。 工艺气体入口将工艺气体提供到腔室中。 等离子体源功率电极连接到RF功率发生器,用于将等离子体源功率电容耦合到腔室中,以在腔室内维持等离子体。 反应器还包括至少第一架空螺线管电磁体,靠近天花板,架空螺线管电磁体,天花板,侧壁和工件支撑件沿着共同的对称轴线定位。 电流源连接到第一螺线管电磁体并且在第一螺线管电磁体中提供第一电流,从而在腔室内产生与第一电流有关的磁场,第一电流具有使得 磁场增加等离子体离子密度在工件支撑表面附近的对称轴的径向分布的均匀性。
    • 29. 发明申请
    • METHODS FOR STABLE PROCESS IN A REACTIVE SPUTTERING PROCESS USING ZINC OR DOPED ZINC TARGET
    • 使用ZINC或DOPED ZINC目标的反应溅射过程中稳定过程的方法
    • US20110073463A1
    • 2011-03-31
    • US12891893
    • 2010-09-28
    • Yan Ye
    • Yan Ye
    • C23C14/34C23C14/06
    • C23C14/0676C23C14/0036C23C14/3492C23C14/35C23C14/564H01J37/3408
    • Embodiments disclosed herein generally relate to a method for seasoning a sputtering target in-situ with a substrate to be processed. New semiconductor compounds containing oxygen, nitrogen, and an element such as zinc, cadmium, tin, indium, and gallium are beginning to replace silicon as the material for active channels in TFTs. The new semiconductor compounds may be deposited by a reactive sputtering process. During the sputtering process, reactive gas reacts with the metal from the sputtering target and deposits on the substrate. Some of the reactive gas may react at the surface and lead to a buildup of a compound at the target surface. Because oxygen and nitrogen are quite reactive, an oxide or nitride compound may develop at the target surface. The oxide or nitride may be removed by seasoning the sputtering target. The seasoning may occur while the substrate is within the processing chamber.
    • 本文公开的实施方案通常涉及用于与待处理的基底原位调制溅射靶的方法。 包含氧,氮和锌,镉,锡,铟和镓等元素的新的半导体化合物开始取代硅作为TFT中的有源沟道的材料。 可以通过反应溅射工艺沉积新的半导体化合物。 在溅射过程中,反应性气体与来自溅射靶的金属反应并沉积在衬底上。 一些反应性气体可能在表面反应并导致化合物在目标表面的积聚。 因为氧和氮是相当反应性的,所以氧化物或氮化物可能在目标表面产生。 可以通过调节溅射靶来去除氧化物或氮化物。 调色剂可能在基材处于处理室内时发生。
    • 30. 发明申请
    • VIDEO DECODING USING TEMPORALLY CONSTRAINED SPATIAL DEPENDENCY
    • 视频解码使用临时约束的空间依赖
    • US20100284471A1
    • 2010-11-11
    • US12436953
    • 2009-05-07
    • Ming-Chang TsaiChia-Yuan TengYan Ye
    • Ming-Chang TsaiChia-Yuan TengYan Ye
    • H04N7/50
    • H04N19/55H04N19/132H04N19/162H04N19/17H04N19/44H04N19/61H04N19/70
    • This disclosure describes techniques for region-of-interest (ROI) encoding. In accordance with the techniques described herein, an encoding device may determine a temporal spatial dependency value for a candidate reference video block for inter-coding a current block in a video frame. The encoding device may compare the temporal spatial dependency value to a threshold value and select a coding mode for the current block based on the comparison. A decoding device may receive data defining a ROI as well as the temporal spatial dependency value and decode a video block in the ROI based at least in part on the temporal spatial dependency value. In this manner, the techniques of this disclosure may allow a video content viewer the ability to choose a ROI to watch.
    • 本公开描述了用于感兴趣区域(ROI)编码的技术。 根据本文描述的技术,编码设备可以确定候选参考视频块的时间空间依赖性值,用于对视频帧中的当前块进行帧间编码。 编码装置可以将时间空间相关性值与阈值进行比较,并且基于该比较选择当前块的编码模式。 解码装置可以至少部分地基于时间空间依赖性值来接收定义ROI的数据以及时间空间相关性值并对ROI中的视频块进行解码。 以这种方式,本公开的技术可以允许视频内容观看者选择要观看的ROI的能力。