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    • 91. 发明申请
    • FACE RECOGNITION APPARATUS AND METHODS
    • 脸部识别装置和方法
    • US20120170852A1
    • 2012-07-05
    • US13395458
    • 2009-09-25
    • Wei ZhangTong Zhang
    • Wei ZhangTong Zhang
    • G06K9/48
    • G06K9/00281
    • Interest regions are detected in respective images (18) having face regions labeled with respective facial part labels. For each of the detected interest regions, a respective facial region descriptor vector of facial region descriptor values characterizing the detected interest region is determined. Ones of the facial part labels are assigned to respective ones of the facial region descriptor vectors. For each of the facial part labels, a respective facial part detector (20) that detects facial region descriptor vectors corresponding to the facial part label is built. The facial part detectors (20) are associated with rules (30) that qualify segmentation results of the facial part detectors (20) based on spatial relations between interest regions detected in images and the respective face part labels assigned to the facial part detectors (20). Faces in images are detected and recognized based on application of the facial part detectors (20) to images.
    • 在具有用相应的面部标签标记的面部区域的各个图像(18)中检测兴趣区域。 对于每个检测到的感兴趣区域,确定表征检测到的兴趣区域的面部区域描述符值的相应面部区域描述符向量。 面部部分标签的一部分被分配给面部区域描述符向量中的相应的一个。 对于每个面部部分标签,构建检测与面部部分标签相对应的面部区域描述符向量的相应面部部分检测器(20)。 面部部分检测器(20)与根据图像中检测到的兴趣区域和分配给面部部分检测器的相应面部部分标签(20)之间的空间关系来限定面部部分检测器(20)的分割结果的规则(30)相关联 )。 基于面部部件检测器(20)对图像的应用来检测和识别图像中的面部。
    • 94. 发明申请
    • Spectrophotometric Monitoring Of Multiple Layer Tissue Structures
    • 多层组织结构的分光光度监测
    • US20120095305A1
    • 2012-04-19
    • US12815696
    • 2010-06-15
    • Ming WangShih-Ping WangZengpin YuWei Zhang
    • Ming WangShih-Ping WangZengpin YuWei Zhang
    • A61B5/1455A61B6/00
    • A61B5/0075A61B5/103A61B5/14551
    • Methods, systems, and related computer program products for the non-invasive spectrophotometric monitoring of a biological volume having multiple tissue layers are described. Aggregate absorption and scattering properties are measured for each of a plurality of predetermined source-detector separation distances along a surface of the biological volume, the measurement being based on a model of the biological volume as a single-layer, semi-infinite, homogeneous volume. A predetermined multi-layer tissue model is retrieved that characterizes a mathematical relationship among (a) absorption and scattering properties of each layer of a multi-layer tissue structure, and (b) aggregate absorption and scattering properties of the multi-layer tissue structure as would be measured at selected source-detector separation distances along a surface thereof. The measured aggregate absorption and scattering properties are processed in conjunction with the predetermined multi-layer tissue model to compute therefrom a deep-layer-specific absorption property corresponding to the relatively deep tissue layer.
    • 描述了用于非侵入式分光光度监测具有多个组织层的生物体积的方法,系统和相关的计算机程序产品。 测量沿着生物体积的表面的多个预定的源 - 检测器分离距离中的每一个的聚集吸收和散射性质,该测量基于生物体积的模型作为单层,半无限均质体​​积 。 检索预定的多层组织模型,其表征(a)多层组织结构的每层的吸收和散射性质之间的数学关系,以及(b)多层组织结构的聚集吸收和散射性质作为 将沿着其表面的选定的源 - 检测器间隔距离测量。 测量的聚集体吸收和散射性质与预定的多层组织模型结合进行处理,从而计算对应于相对较深的组织层的深层特异性吸收特性。
    • 97. 发明申请
    • FLOOR THROUGH-PASSAGE MOLDING APPARATUS AND CONSTRICTING MODULE THEREOF
    • 通过通过模具的地板及其应力模块
    • US20120085886A1
    • 2012-04-12
    • US13218452
    • 2011-08-26
    • YANBO XIETing XiaWei Zhang
    • YANBO XIETing XiaWei Zhang
    • B22D19/00
    • E04G15/061
    • The present invention provides a floor through-passage molding apparatus adapted for a floor construction having steel bars, includes: a forming sleeve and a constricting module. Said forming sleeve has a sleeve wall forming an outer circumference surface. Said constricting module has an elongated curved body disposed on said sleeve wall, and a first connection terminal and a second connection terminal are respectively located on two opposite ends of said elongated curved body. By connection of said first connection terminal with the second connection, said elongated curved body can radially support outer the circumference surface of the sleeve wall to reinforce the entire structure of the forming sleeve and thereby prevent the floor through-passage molding apparatus from deforming or slanting, and simultaneously reinforce a firm connectivity between the floor through-passage molding apparatus and the concrete floor.
    • 本发明提供了一种适用于具有钢筋的地板结构的地板通道模制装置,包括:成形套筒和收缩模块。 所述成形套筒具有形成外圆周表面的套筒壁。 所述收缩模块具有设置在所述套筒壁上的细长弯曲体,并且第一连接端子和第二连接端子分别位于所述细长弯曲体的两个相对端上。 通过所述第一连接端子与第二连接件的连接,所述细长弯曲体可径向地支撑套管壁的外周表面,以加强成形套筒的整个结构,从而防止地板通道模制装置变形或倾斜 同时加强地板通道成型装置与混凝土地板之间的牢固连接。
    • 98. 发明授权
    • Cable connector assembly with improved printed circuit board
    • 带改进印刷电路板的电缆连接器组件
    • US08124496B2
    • 2012-02-28
    • US12953384
    • 2010-11-23
    • Ping-Sheng SuDou-Feng WuWei ZhangDa-Wei Xing
    • Ping-Sheng SuDou-Feng WuWei ZhangDa-Wei Xing
    • H01R13/58
    • H01R13/7175H01R13/6658H01R13/7172H01R24/20
    • A cable connector assembly (100) comprises a mating member (3) assembled with a plurality of contacts (33, 34), a printed circuit board (2), a cable (7) having a plurality of wires (71) and a strain relief portion (72), and a light pipe located (4) between the printed circuit board and the strain relief portion. The printed circuit board is attached with a LED (24), and the LED is electrically connected with the contacts. The printed circuit board defines a front surface, a rear surface and a cutout (23) extending through the front surface and the rear surface along a mating direction, and the LED is disposed behind the rear surface of the printed circuit board, the wires are extending through the cutout of the printed circuit board and soldered to the contacts in front of the printed circuit board.
    • 电缆连接器组件(100)包括组装有多个触头(33,34)的配合构件(3),印刷电路板(2),具有多根电线(71)的电缆(7) 释放部分(72)和位于印刷电路板和应变消除部分之间的光管(4)。 印刷电路板附有LED(24),LED与触点电连接。 印刷电路板沿着配合方向限定前表面,后表面和延伸穿过前表面和后表面的切口(23),并且LED布置在印刷电路板的后表面之后,导线是 延伸穿过印刷电路板的切口并焊接到印刷电路板前面的触点。
    • 99. 发明授权
    • Hybrid nanotube/CMOS dynamically reconfigurable architecture and an integrated design optimization method and system therefor
    • 混合纳米管/ CMOS动态可重构架构及其集成设计优化方法及系统
    • US08117436B2
    • 2012-02-14
    • US12297638
    • 2007-04-19
    • Wei ZhangNiraj K. JhaLi Shang
    • Wei ZhangNiraj K. JhaLi Shang
    • G06F1/24
    • G11C11/40615H01L51/0052H03K19/17752H03K19/17776H03K19/1778
    • A hybrid nanotube, high-performance, dynamically reconfigurable architecture, NATURE, is provided, and a design optimization flow method and system, NanoMap. A run-time reconfigurable architecture is provided by associating a non-volatile universal memory to each logic element to enable cycle-by-cycle reconfiguration and logic folding, while remaining CMOS compatible. Through logic folding, significant logic density improvement and flexibility in performing area-delay tradeoffs are possible. NanoMap incorporates temporal logic folding during the logic mapping, temporal clustering and placement steps. NanoMap provides for automatic selection of a best folding level, and uses force-direct scheduling to balance resources across folding stages. Mapping can thereby target various optimization objectives and user constraints. A high-density, high-speed carbon nanotube RAM can be implemented as the universal memory, allowing on-chip multi-context configuration storage, enabling fine-grain temporal logic folding, and providing a significant increase in relative logic density.
    • 提供混合纳米管,高性能,动态可重构架构,NATURE,以及NanoMap的设计优化流程方法和系统。 通过将非易失性通用存储器与每个逻辑元件相关联来提供运行时可重构架构,以实现逐周期重新配置和逻辑折叠,同时保持CMOS兼容性。 通过逻辑折叠,可以实现显着的逻辑密度改进和执行区域延迟权衡的灵活性。 NanoMap在逻辑映射,时间聚类和放置步骤期间包含时间逻辑折叠。 NanoMap提供自动选择最佳折叠级别,并使用强制直接调度来平衡折叠阶段的资源。 因此,映射可以针对各种优化目标和用户约束。 高密度高速碳纳米管RAM可以实现为通用存储器,允许片上多上下文配置存储,实现细粒度时间逻辑折叠,并提供相对逻辑密度的显着增加。