Limiting the maximum size of an encoded video picture using sub-picture based rate control
    13.
    发明授权
    Limiting the maximum size of an encoded video picture using sub-picture based rate control 有权
    使用基于子图像的速率控制来限制编码视频图像的最大尺寸

    公开(公告)号:US08780973B2

    公开(公告)日:2014-07-15

    申请号:US13206718

    申请日:2011-08-10

    IPC分类号: H04N7/50 H04N7/26

    摘要: A method for encoding a picture in a video sequence is provided that includes determining the current encoded size of the picture after coding a plurality of macroblocks in the picture, determining that encoding remaining macroblocks in the picture may cause the encoded size of the picture to exceed a maximum encoded picture size, computing a quantization scale responsive to the determining, wherein the quantization scale is computed such that the estimated encoded size of the remaining macroblocks if the remaining macroblocks are quantized with the quantization scale does not exceed the difference between the maximum encoded picture size and the current encoded picture size, and quantizing at least one of the remaining macroblocks with the new quantization scale.

    摘要翻译: 提供了一种用于对视频序列中的图像进行编码的方法,包括:在编码图像中的多个宏块之后确定图像的当前编码大小,确定图像中的剩余宏块编码可能导致图像的编码大小超过 最大编码图像大小,响应于该确定来计算量化尺度,其中计算量化比例,使得如果剩余宏块用量化比例量化的剩余宏块的估计编码大小不超过最大编码图像大小之间的差 图像尺寸和当前编码图像尺寸,并用新的量化尺度量化剩余宏块中的至少一个。

    Recovery point data view shift through a direction-agnostic roll algorithm
    14.
    发明授权
    Recovery point data view shift through a direction-agnostic roll algorithm 有权
    恢复点数据视图通过方向无关的滚动算法进行切换

    公开(公告)号:US08732136B2

    公开(公告)日:2014-05-20

    申请号:US12691745

    申请日:2010-01-22

    IPC分类号: G06F17/00

    CPC分类号: G06F17/30368

    摘要: A method and system of recovery point data view shift through a direction-agnostic roll algorithm is disclosed. The method includes forming a data view around a recovery point, and shifting the data view around the recovery point through a direction-agnostic roll algorithm that uses at least one of a roll-forward algorithm to shift the data view to a time after the recovery point and a roll-backward algorithm to shift the data view to a time before the recovery point. A data integrity is determined to be consistent at the recovery point by examining data and meta-data associated with the recovery point. The recovery point is associated with one of an automatically generated event, a user definable event, and/or a prepackaged event. A marker data is generated at the recovery point to enable the direction-agnostic roll algorithm to reduce a recovery time objective when an algorithm is applied.

    摘要翻译: 公开了一种通过方向无关的滚动算法转换的恢复点数据视图的方法和系统。 该方法包括围绕恢复点形成数据视图,并且通过方向不可知的滚动算法来绕恢复点移动数据视图,所述方法不可知的滚动算法使用前滚算法中的至少一个将数据视图移位到恢复之后的时间 点和滚动后退算法将数据视图移动到恢复点之前的一段时间。 通过检查与恢复点相关联的数据和元数据,在恢复点确定数据完整性是一致的。 恢复点与自动生成的事件,用户可定义事件和/或预包装事件之一相关联。 在恢复点产生标记数据,以使得方向不确定的滚动算法能够在应用算法时减少恢复时间目标。

    ON-TARGET RAPID CONTROL PROTOTYPING
    15.
    发明申请
    ON-TARGET RAPID CONTROL PROTOTYPING 有权
    目标快速控制原型

    公开(公告)号:US20100192122A1

    公开(公告)日:2010-07-29

    申请号:US12555338

    申请日:2009-09-08

    IPC分类号: G06F9/45 G05B19/042

    摘要: An on-target rapid control prototyping (RCP) system includes a host control module that generates a first RCP model based on selected function blocks in a block library. A target language compiler converts the first RCP model into source code. A cross-compiler coverts the source code into object code. A download module performs an on-target download of the object code from a host that includes the host control module to a production control module of a production system that is separate from the host.

    摘要翻译: 目标快速控制原型(RCP)系统包括主机控制模块,其基于块库中的所选功能块生成第一RCP模型。 目标语言编译器将第一个RCP模型转换为源代码。 交叉编译器将源代码覆盖为目标代码。 下载模块从包含主机控制模块的主机执行目标代码的目标下载到与主机分离的生产系统的生产控制模块。

    COALESCING AND CAPTURING DATA BETWEEN EVENTS PRIOR TO AND AFTER A TEMPORAL WINDOW
    16.
    发明申请
    COALESCING AND CAPTURING DATA BETWEEN EVENTS PRIOR TO AND AFTER A TEMPORAL WINDOW 有权
    在时间窗口之前和之后的事件之间的通话和捕获数据

    公开(公告)号:US20100169281A1

    公开(公告)日:2010-07-01

    申请号:US12344335

    申请日:2008-12-26

    IPC分类号: G06F17/30 G06F7/00

    摘要: Systems and methods of coalescing and capturing data between events prior to and after a temporal window are disclosed. In an embodiment, a method includes determining a temporal window based on one or more of a user data and an automatically generated data, coalescing data between events prior to the temporal window using a processor and a physical memory and capturing data between events after the temporal window. The coalescing data between events prior to the temporal window may be determined by a set of overlapping operations to a data set, wherein certain operations have non-overlapping sectors which are not coalesced. Shifting a data view around a recovery point through a direction-agnostic roll algorithm that may use a roll-forward algorithm to shift the data view to a time after the recovery point and/or a roll-backward algorithm to shift the data view to a time before the recovery point.

    摘要翻译: 公开了在时间窗口之前和之后在事件之间聚合和捕获数据的系统和方法。 在一个实施例中,一种方法包括基于用户数据和自动生成的数据中的一个或多个来确定时间窗口,使用处理器和物理存储器在时间窗口之前的事件之间聚合数据,并且在时间之后的事件之间捕获数据 窗口。 在时间窗口之前的事件之间的合并数据可以通过对数据集合的一组重叠操作来确定,其中某些操作具有不重叠的扇区,它们不合并。 通过方向不确定的滚动算法来绕着恢复点移动数据视图,该算法可以使用前滚算法将数据视图移动到恢复点之后的时间和/或滚动后退算法以将数据视图移动到 恢复点前的时间。

    CARBON FIBERS AND FILMS AND METHODS OF MAKING SAME

    公开(公告)号:US20100112322A1

    公开(公告)日:2010-05-06

    申请号:US12525293

    申请日:2008-01-30

    摘要: The various embodiments of the present invention provide improved carbon fibers and films, as well as methods of making the carbon fibers and films. The carbon fibers and films disclosed herein are generally formed from an acrylonitrile-containing polymer. The carbon fibers and/or films can also be formed from a composite that includes the acrylonitrile-containing polymer as well as carbon nanotubes, graphite sheets, or both. The fibers and films described herein can be tailored to exhibit one or more of high strength, high modulus, high electrical conductivity, high thermal conductivity, or optical transparency, depending on the desired application for the fibers or films.

    Ensuring data persistence and consistency in enterprise storage backup systems
    18.
    发明授权
    Ensuring data persistence and consistency in enterprise storage backup systems 有权
    确保企业存储备份系统中的数据持久性和一致性

    公开(公告)号:US07634507B2

    公开(公告)日:2009-12-15

    申请号:US11513556

    申请日:2006-08-30

    IPC分类号: G06F17/30

    摘要: Ensuring data persistence and consistency in enterprise storage backup systems method and apparatus are disclosed. In one embodiment, a method includes creating a data log structure (e.g., a log file) on a storage device (e.g., a Serial ATA drive, a SCSI drive, a SAS drive, a storage are network, etc) coupled to an application server to store a backup data generated by a filter module in a continuous backup environment and buffering the backup data generated by the filter module through a memory module that transfers the backup data to the data log structure on the storage device based on an occurrence of an event. The data log structure may be created by configuring a portion of the storage device as a dedicated resource available to the memory module to copy the backup data and the data log structure may be a file on the storage device coupled to the application server having the file system.

    摘要翻译: 公开了企业存储备份系统方法和装置的数据持久性和一致性。 在一个实施例中,一种方法包括在耦合到应用程序的存储设备(例如,串行ATA驱动器,SCSI驱动器,SAS驱动器,存储器是网络等)上创建数据记录结构(例如,日志文件) 服务器,用于将由过滤器模块生成的备份数据存储在连续备份环境中,并且通过存储器模块缓冲由过滤器模块产生的备份数据,所述存储器模块基于存储设备的发生将备份数据传送到存储设备上的数据记录结构 事件。 可以通过将存储设备的一部分配置为可用于存储器模块的专用资源来复制备份数据来创建数据记录结构,并且数据记录结构可以是耦合到具有该文件的应用服务器的存储设备上的文件 系统。

    SINGLE-WALL CARBON NANOTUBE FILM HAVING HIGH MODULUS AND CONDUCTIVITY AND PROCESS FOR MAKING THE SAME
    19.
    发明申请
    SINGLE-WALL CARBON NANOTUBE FILM HAVING HIGH MODULUS AND CONDUCTIVITY AND PROCESS FOR MAKING THE SAME 有权
    具有高模量和电导率的单壁碳纳米管膜及其制造方法

    公开(公告)号:US20070041887A1

    公开(公告)日:2007-02-22

    申请号:US10386370

    申请日:2003-03-11

    IPC分类号: D01F9/12

    摘要: The invention relates to a film comprising greater than 80 wt % single-wall carbon nanotubes wherein the tensile modulus is at least about 6 GPa at 0.2% strain and the conductivity of the film is at least about 70,000 S/m. The tensile modulus is typically about 8 GPa at 0.2% strain. The method for making the film comprises preparing a solution of single-wall carbon nanotubes in a superacid, such as oleum containing approximately 20 to 30% sulfur trioxide, under a dry, oxygen-free atmosphere. The solution is placed on a surface in a moisture-containing atmosphere, wherein the solution absorbs moisture and acid leaches out. The film is washed to further remove acid, dried, and, optionally, subjected to a heat treatment. Besides free-standing films, coatings of single-wall carbon nanotubes can be made on a variety of surfaces including polymers, glass, metals, and ceramics. The surfaces can be flat planes, fibers or contour shapes.

    摘要翻译: 本发明涉及包含大于80重量%的单壁碳纳米管的膜,其中在0.2%应变下的拉伸模量为至少约6GPa,并且膜的导电率为至少约70,000S / m 2。 在0.2%应变下,拉伸模量通常约为8GPa。 制造该膜的方法包括在干燥,无氧气氛下,在含有约20-30%三氧化硫的发烟硫酸的超酸中制备单壁碳纳米管的溶液。 将溶液放置在含水气氛中的表面上,其中溶液吸收水分并酸浸出。 洗涤该膜以进一步除去酸,干燥,并且任选地进行热处理。 除了独立的膜,单壁碳纳米管的涂层可以在各种表面上制成,包括聚合物,玻璃,金属和陶瓷。 表面可以是平面,纤维或轮廓形状。

    High tensile strength carbon nanotube film and process for making the same
    20.
    发明申请
    High tensile strength carbon nanotube film and process for making the same 审中-公开
    高抗拉强度碳纳米管薄膜及其制造方法

    公开(公告)号:US20060029537A1

    公开(公告)日:2006-02-09

    申请号:US10984619

    申请日:2004-11-09

    IPC分类号: D01F9/12

    摘要: A conductive carbon nanotube film having high tensile strength and initial tensile modulus comprises primarily oxidized small-diameter carbon nanotubes wherein the diameter of the small-diameter carbon nanotubes are at most about 3 nm. A method for making the film comprises refluxing an aqueous mixture comprising carbon nanotubes and an oxidizing agent to form a refluxed nanotube dispersion; forming a carbon nanotube film from the refluxed carbon nanotube dispersion; optionally removing nitric acid or other oxidizing agent from the carbon nanotube film; drying the carbon nanotube film; and heat-treating the carbon nanotube film to form a heat-treated carbon nanotube film. The method can also comprise sonicating the nanotubes prior to or after refluxing. A heat-treated small-diameter carbon nanotube film can have a tensile strength of over 70 MPa and an initial tensile modulus of about 5 GPa.

    摘要翻译: 具有高拉伸强度和初始拉伸模量的导电碳纳米管膜主要包括氧化的小直径碳纳米管,其中小直径碳纳米管的直径至多约3nm。 制备该膜的方法包括回流包含碳纳米管和氧化剂的含水混合物以形成回流的纳米管分散体; 从回流的碳纳米管分散体形成碳纳米管膜; 任选地从碳纳米管膜除去硝酸或其它氧化剂; 干燥碳纳米管膜; 并对碳纳米管膜进行热处理以形成热处理的碳纳米管膜。 该方法还可以包括在回流之前或之后超声处理纳米管。 经热处理的小直径碳纳米管膜的拉伸强度可以超过70MPa,初始拉伸模量可以为约5GPa。