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    DATA CLASSIFICATION BASED ON POINT-OF-VIEW DEPENDENCY
    1.
    发明申请
    DATA CLASSIFICATION BASED ON POINT-OF-VIEW DEPENDENCY 审中-公开
    基于视点依据的数据分类

    公开(公告)号:US20110125747A1

    公开(公告)日:2011-05-26

    申请号:US12822991

    申请日:2010-06-24

    申请人: Daniel Gartung Philip Chan John Rotherham

    发明人: Daniel Gartung Philip Chan John Rotherham

    IPC分类号: G06F17/30

    CPC分类号: G06F16/353

    摘要: Data classification is used to classified input items by associating the input items with one or more classes from a set of one or more classes in a data classification system, including identifying relevant features in an input item to form a feature vector for the input item, receiving at the data classification system an indication of a point-of-view, adjusting the feature vector according to the point-of-view indication or modifying a pattern discriminator (e.g., trainer and classifier) to inline-process feature vectors depending on the provided point-of-view (e.g., SVM custom kernels), and classifying the input item into the set of classes according to the point-of-view. The point-of-view data can be introduced either as a pre-process step prior to passing it off to the pattern discrimination algorithm, or can be incorporated directly into the pattern discrimination algorithm if applicable. The pattern discrimination algorithms can detect arbitrary patterns given a similarly prepared dataset during both training and subsequent classification of unclassified documents.

    摘要翻译: 数据分类用于通过将输入项与来自数据分类系统中的一个或多个类的集合的一个或多个类相关联来分类输入项,包括识别输入项中的相关特征以形成输入项的特征向量, 在数据分类系统处接收观察点的指示,根据视点指示调整特征向量或者将模式鉴别器(例如,训练者和分类器)修改为内联处理特征向量,这取决于视点 提供了视点(例如,SVM自定义内核),并根据视点将输入项分类到类集合中。 视点数据可以在将其传递到模式识别算法之前作为预处理步骤引入,或者可以直接并入模式识别算法(如果适用)中。 模式识别算法可以在对未分类文档的训练和后续分类期间给出类似准备的数据集的任意模式。

    Data classification based on point-of-view dependency
    2.
    发明授权
    Data classification based on point-of-view dependency 有权
    基于视点依赖关系的数据分类

    公开(公告)号:US07769759B1

    公开(公告)日:2010-08-03

    申请号:US10931291

    申请日:2004-08-30

    申请人: Daniel Gartung Philip Chan John Rotherham

    发明人: Daniel Gartung Philip Chan John Rotherham

    IPC分类号: G06F17/30

    CPC分类号: G06F17/30707

    摘要: Data classification is used to classified input items by associating the input items with one or more classes from a set of one or more classes in a data classification system, including identifying relevant features in an input item to form a feature vector for the input item, receiving at the data classification system an indication of a point-of-view, adjusting the feature vector according to the point-of-view indication or modifying a pattern discriminator (e.g., trainer and classifier) to inline-process feature vectors depending on the provided point-of-view (e.g., SVM custom kernels), and classifying the input item into the set of classes according to the point-of-view. The point-of-view data can be introduced either as a pre-process step prior to passing it off to the pattern discrimination algorithm, or can be incorporated directly into the pattern discrimination algorithm if applicable. The pattern discrimination algorithms can detect arbitrary patterns given a similarly prepared dataset during both training and subsequent classification of unclassified documents.

    摘要翻译: 数据分类用于通过将输入项与来自数据分类系统中的一个或多个类的集合的一个或多个类相关联来分类输入项,包括识别输入项中的相关特征以形成输入项的特征向量, 在数据分类系统处接收观察点的指示,根据视点指示调整特征向量或者将模式鉴别器(例如,训练者和分类器)修改为内联处理特征向量,这取决于视点 提供了视点(例如,SVM自定义内核),并根据视点将输入项分类到类集合中。 视点数据可以在将其传递到模式识别算法之前作为预处理步骤引入,或者可以直接并入模式识别算法(如果适用)中。 模式识别算法可以在对未分类文档的训练和后续分类期间给出类似准备的数据集的任意模式。

    SET OF OHMIC CONTACT ELECTRODES ON BOTH P-TYPE AND N-TYPE LAYERS FOR GAN-BASED LED AND METHOD FOR FABRICATING THE SAME
    3.
    发明申请
    SET OF OHMIC CONTACT ELECTRODES ON BOTH P-TYPE AND N-TYPE LAYERS FOR GAN-BASED LED AND METHOD FOR FABRICATING THE SAME 审中-公开
    在基于GAN的LED的两个P型和N型层上设置OHMIC接触电极及其制造方法

    公开(公告)号:US20090057706A1

    公开(公告)日:2009-03-05

    申请号:US12184172

    申请日:2008-07-31

    申请人: Philip Chan Raymond Wang Leo Lei

    发明人: Philip Chan Raymond Wang Leo Lei

    IPC分类号: H01L33/00

    CPC分类号: H01L33/40 H01L33/32

    摘要: The present disclosure relates to set of a ohmic contact electrodes on both P-type and N-type layers of a GaN-based light emitting diode (LED) and a fabricating method thereof. The materials of ohmic contact electrodes on both P-type and N-type layers of a GaN-based LED are a metal combination of Cr/Pd/Au. In one embodiment, the fabricating method comprises etching out an N-type GaN layer on an epitaxial structure on a sapphire substrate, and evaporating a P-type transparent electrode layer on the P-type GaN layer, then positioning patterns of the ohmic contact electrodes on both P-type and N-type layers, and then evaporating a metal combination of a Cr layer 50 Å to 500 Å thick, a Pd layer 300 Å to 1000 Å thick and an Au layer 3000 Å to 20000 Å thick in turn on the P-type transparent electrode layer and N-type GaN layer respectively, and then annealing electrodes of the chip, on which the Cr, Pd and Au layers are evaporated in nitrogen atmosphere for 5 minutes to 20 minutes at a temperature from 200 degrees to 450 degrees. Excellent ohmic contact characteristics and better thermal stability are obtained as well as higher oxidation resistance, thus improving the reliability of diode.

    摘要翻译: 本公开涉及GaN基发光二极管(LED)的P型和N型层上的欧姆接触电极的集合及其制造方法。 GaN基LED的P型和N型层上的欧姆接触电极的材料是Cr / Pd / Au的金属组合。 在一个实施例中,制造方法包括在蓝宝石衬底上蚀刻外延结构上的N型GaN层,并蒸发P型GaN层上的P型透明电极层,然后定位欧姆接触电极的图案 在P型和N型层上,然后将Cr层厚至500埃的金属组合,厚度为300埃至1000埃的Au层和3000埃至20000埃的Au层蒸发 分别为P型透明电极层和N型GaN层,然后将Cr,Pd和Au层的退火电极在氮气气氛中在200℃至200℃的温度下蒸发5分钟至20分钟 450度。 获得了优异的欧姆接触特性和更好的热稳定性以及更高的抗氧化性,从而提高了二极管的可靠性。

    Lenticular medium with electro-luminescent backlighting
    4.
    发明申请
    Lenticular medium with electro-luminescent backlighting 审中-公开
    具有电致发光背光的透镜介质

    公开(公告)号:US20050157483A1

    公开(公告)日:2005-07-21

    申请号:US10874626

    申请日:2004-06-23

    申请人: Philip Chan Timothy Aiu

    发明人: Philip Chan Timothy Aiu

    IPC分类号: F21V9/16 G09F13/04 G09F13/22

    CPC分类号: G09F13/04 F21V9/30 G09F13/22

    摘要: An improved system for backlighting a visual effect of interest is presented. The system includes a lenticular luminescent lens, an electroluminescent (EL) light source and a power source coupled to the EL light source. The lenticular luminescent lens includes a luminescent substance disposed thereon/therein for providing the visual effect of interest when exposed to stimulating light. The EL light source is affixed to a surface of the lenticular luminescent lens. When the power source applies power to the EL light source, the EL light source activates an area of illumination backlighting the visual effect of interest.

    摘要翻译: 提出了一种用于背光感兴趣的视觉效果的改进系统。 该系统包括透镜状发光透镜,电致发光(EL)光源和耦合到EL光源的电源。 透镜状发光透镜包括布置在其上的发光物质,用于当暴露于刺激光时提供感兴趣的视觉效果。 EL光源固定在透镜状发光透镜的表面上。 当电源向EL光源施加电力时,EL光源激活照明区域以背光感兴趣的视觉效果。

    Flexible electroluminescent material
    8.
    发明授权
    Flexible electroluminescent material 失效
    柔性电致发光材料

    公开(公告)号:US07148623B2

    公开(公告)日:2006-12-12

    申请号:US10878843

    申请日:2004-06-28

    申请人: Vladimir Vlaskin Philip Chan

    发明人: Vladimir Vlaskin Philip Chan

    IPC分类号: H01J1/62 H01J63/04

    CPC分类号: H05B33/10 H05B33/145 H05B33/22 H05B33/28 Y10T156/1705

    摘要: A method forming a flexible EL device comprising the steps of: 1) forming the non-adhesive shield polymer layer (2) on the plastic film layer (1); 2) forming a back conductive electrode layer (3) on the non-adhesive shield polymer layer (2); 3) forming dielectric layer (4) comprising a mixture of high-dielectric constant powder and binder on the back conductive electrode layer (3); 4) forming first field polymer layer (5) on the dielectric layer (4). 5) forming a phosphor layer (6) comprising encapsulated phosphor and binder on the first field polymer (5); 6) forming second field polymer (7) on the phosphor layer (6). 7) forming the transparent electrode layer (8) by using conductive polymer comprising transparent conductive materials on the second field polymer layer (7); 8) forming a polymer protection layer (9) on the transparent electrode layer (8); and 9) then separating the EL cell (2–9 layers) from plastic film.

    摘要翻译: 一种形成柔性EL器件的方法,包括以下步骤:1)在塑料膜层(1)上形成非粘性屏蔽聚合物层(2); 2)在非粘合屏蔽聚合物层(2)上形成背面导电电极层(3); 3)在背导电电极层(3)上形成包含高介电常数粉末和粘合剂的混合物的介质层(4); 4)在介电层(4)上形成第一场聚合物层(5)。 5)在第一场聚合物(5)上形成包含磷光体和粘合剂的磷光体层(6); 6)在荧光体层(6)上形成第二场聚合物(7)。 7)通过在第二场聚合物层(7)上使用包含透明导电材料的导电聚合物形成透明电极层(8); 8)在透明电极层(8)上形成聚合物保护层(9); 和9)然后将EL电池(2-9层)与塑料膜分离。

    Flexible electeroluminescent material
    9.
    发明申请
    Flexible electeroluminescent material 失效
    柔性电致发光材料

    公开(公告)号:US20050285515A1

    公开(公告)日:2005-12-29

    申请号:US10878843

    申请日:2004-06-28

    申请人: Vladimir Vlaskin Philip Chan

    发明人: Vladimir Vlaskin Philip Chan

    IPC分类号: H01J1/62 H01J63/04 H05B33/10 H05B33/14 H05B33/22 H05B33/28

    CPC分类号: H05B33/10 H05B33/145 H05B33/22 H05B33/28 Y10T156/1705

    摘要: A method forming a flexible EL device comprising the steps of: 1) forming the non-adhesive shield polymer layer (2) on the plastic film layer (1); 2) forming a back conductive electrode layer (3) on the non-adhesive shield polymer layer (2); 3) forming dielectric layer (4) comprising a mixture of high-dielectric constant powder and binder on the back conductive electrode layer (3); 4) forming first field polymer layer (5) on the dielectric layer (4). 5) forming a phosphor layer (6) comprising encapsulated phosphor and binder on the first field polymer (5); 6) forming second field polymer (7) on the phosphor layer (6). 7) forming the transparent electrode layer (8) by using conductive polymer comprising transparent conductive materials on the second field polymer layer (7); 8) forming a polymer protection layer (9) on the transparent electrode layer (8); and 9) then separating the EL cell (2-9 layers) from plastic film.

    摘要翻译: 一种形成柔性EL器件的方法,包括以下步骤:1)在塑料膜层(1)上形成非粘性屏蔽聚合物层(2); 2)在非粘合屏蔽聚合物层(2)上形成背面导电电极层(3); 3)在背导电电极层(3)上形成包含高介电常数粉末和粘合剂的混合物的介质层(4); 4)在介电层(4)上形成第一场聚合物层(5)。 5)在第一场聚合物(5)上形成包含磷光体和粘合剂的磷光体层(6); 6)在荧光体层(6)上形成第二场聚合物(7)。 7)通过在第二场聚合物层(7)上使用包含透明导电材料的导电聚合物形成透明电极层(8); 8)在透明电极层(8)上形成聚合物保护层(9); 和9)然后将EL电池(2-9层)与塑料膜分离。