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    • 81. 发明申请
    • METHOD OF FABRICATING A P-I-N LIGHT EMITTING DIODE USING CU-DOPED P-TYPE ZNO
    • 使用Cu-DOPED P型ZNO制备P-I-N发光二极管的方法
    • WO2007024041A1
    • 2007-03-01
    • PCT/KR2005/004212
    • 2005-12-09
    • KOREA INSTITUTE OF SCIENCE AND TECHNOLOGYCHOI, Won-kookJUNG, Yeon-sik
    • CHOI, Won-kookJUNG, Yeon-sik
    • H01L33/00
    • H01L33/0087H01L33/0012H01L33/0095H01L33/285
    • Disclosed herein is a method of fabricating a p-i-n type light emitting diode using p-type ZnO, and particularly, a technique for fabricating a p-type ZnO thin film doped with copper, a light emitting diode manufactured using the same, and its application to electrical and magnetic devices. The method of fabricating a p-i-n type light emitting diode using p-type ZnO of the current invention includes depositing a low-temperature ZnO buffer layer on a sapphire single-crystal substrate, depositing an n-type gallium doped ZnO layer on the deposited low-temperature ZnO buffer layer, depositing an intrinsic ZnO thin film on the deposited n-type gallium doped ZnO layer, forming a p-type ZnO thin film layer on the deposited intrinsic ZnO thin film, forming a MESA structure on the p-type ZnO thin film layer through wet etching to obtain a diode structure, and subjecting the diode structure to post-heat treatment.
    • 本文公开了使用p型ZnO制造pin型发光二极管的方法,特别是制造掺杂有铜的p型ZnO薄膜的技术,使用其制造的发光二极管及其应用 电磁设备。 使用本发明的p型ZnO制造pin型发光二极管的方法包括在蓝宝石单晶衬底上沉积低温ZnO缓冲层,在沉积的低温ZnO上沉积n型掺杂镓的ZnO层, 温度ZnO缓冲层,在沉积的n型掺杂镓的ZnO层上沉积本征ZnO薄膜,在沉积的本征ZnO薄膜上形成p型ZnO薄膜层,在p型ZnO薄膜上形成MESA结构 膜层通过湿蚀刻获得二极管结构,并对二极管结构进行后热处理。
    • 84. 发明申请
    • BEARINGLESS STEP MOTOR
    • 无轴步进电机
    • WO2006126788A1
    • 2006-11-30
    • PCT/KR2006/001660
    • 2006-05-03
    • KOREA INSTITUTE OF SCIENCE AND TECHNOLOGYKIM, Seung JongBACH, Du JinKONG, Hosung
    • KIM, Seung JongBACH, Du JinKONG, Hosung
    • H02K37/04
    • H02K7/09F16C32/0425H02K37/18
    • There is provided a bearingless step motor in which a rotating shaft can rotate while rising from a main body by a magnetic force without using a mechanical bearing. The bearingless step motor comprises a stator including stator cores having winding portions and a rotor including a rotating shaft and rotor cores. The rotor rotates by a magnetic interaction between the rotor cores and the stator cores. A first permanent magnet is mounted to the rotor and a second permanent magnet is mounted to the stator. The first permanent magnet and the second permanent magnet are arranged so that a repulsive force is generated between magnetic poles. There is little power consumption for raising the rotating shaft and a complicated system for controlling the rise of the rotating shaft is unnecessary. Thus, the motor can be manufactured with a light and compact structure.
    • 提供了一种无轴承步进电机,其中旋转轴可以在不使用机械轴承的情况下通过磁力从主体上升而旋转。 无轴承步进电动机包括定子,该定子包括具有绕组部分的定子铁心和包括转轴和转子铁心的转子。 转子通过转子芯和定子芯之间的磁相互作用旋转。 第一永磁体安装在转子上,第二永久磁铁安装在定子上。 第一永磁体和第二永久磁铁配置成在磁极之间产生排斥力。 用于提升旋转轴的功耗很小,并且不需要用于控制旋转轴的上升的复杂系统。 因此,电动机可以用轻且紧凑的结构制造。
    • 86. 发明申请
    • AUTOMATIC VISION DISPLAY APPARATUS USING PURSUIT OF FLYING PATH OF FLYING SCREEN UNIT
    • 自动视觉显示装置使用飞行屏幕单元的飞行路径
    • WO2006080688A1
    • 2006-08-03
    • PCT/KR2005/003287
    • 2005-10-05
    • KOREA INSTITUTE OF SCIENCE AND TECHNOLOGYLEE, Sung-HaKANG, Sung-ChulAHN, Sang-ChulKIM, Bong-SeokOH, Seung-Yong
    • LEE, Sung-HaKANG, Sung-ChulAHN, Sang-ChulKIM, Bong-SeokOH, Seung-Yong
    • G06F3/14
    • G03B21/00G09G3/001
    • An automatic vision display apparatus has a flight object having a floating gas filled therein to fly, flying along a vertical wall surface and including a screen mounted at an opposite side to the vertical wall surface; a propulsion unit mounted at a predetermined position of the flight object and moving the flight object; a control unit mounted to the flight object and controlling the propulsion unit; a projector projecting an image on the screen of the flight object at a distance from the flight object; an adjusting unit adjusting an image projecting direction of the projector; and a main control unit controlling the projector to project the image and controlling the adjusting unit so that the projector tracks a movement of the flight object to project an image. According to the invention, it is possible to project an image while automatically tracking the screen of the flight object being flying. In addition, it is possible to correct a distortion of the projected when the screen of the flight object consists of the three dimensional curved surface.
    • 自动视觉显示装置具有飞行物体,其具有填充在其中的浮动气体,以沿垂直壁表面飞行并且包括安装在垂直壁表面相对侧的屏幕; 安装在所述飞行物体的预定位置并移动所述飞行物体的推进单元; 控制单元,安装到飞行物体并控制推进单元; 投影仪在飞行物体的屏幕上投影一段距离飞行物体的距离; 调节单元,调整投影仪的图像投影方向; 以及主控制单元,其控制所述投影仪投射所述图像并控制所述调整单元,使得所述投影仪跟踪所述飞行对象的移动以投影图像。 根据本发明,可以在自动跟踪正在飞行的飞行对象的屏幕的同时投影图像。 此外,当飞行物体的屏幕由三维曲面组成时,可以校正投影的变形。
    • 90. 发明申请
    • IMAGE PROCESSING METHOD FOR REMOVING GLASSES FROM COLOR FACIAL IMAGES
    • 用于从彩色图像中去除玻璃的图像处理方法
    • WO2004040502A1
    • 2004-05-13
    • PCT/KR2003/000927
    • 2003-05-10
    • KOREA INSTITUTE OF SCIENCE AND TECHNOLOGYKIM, Hyoung GonAHN, Sang ChulOH, You Hwa
    • KIM, Hyoung GonAHN, Sang ChulOH, You Hwa
    • G06K9/46
    • G06K9/00275G06K9/00228G06K9/00281
    • An image processing method obtains a glassless image from a color frontal facial image bearing glasses by using a recursive principal component analysis (PCA) reconstruction. The image processing method comprises the steps of a) receiving an RGB color frontal facial image; b) extracting candidates of eye regions from the received RGB color frontal facial image; c) determining an exact eye region out of the candidates and normalizing the received RGB color frontal facial image; d) extracting a glasses frame region by using color information contained in the received RGB color frontal image and edge information of a glasses frame; e) performing an RGB-HIS transformation on the normalized frontal facial image; f) generating H’, S’, and I’ glassless compensated images; g) obtaining R’, G’, and B’ compensated images by performing an HIS-RGB transformation on the H’, S’, and I’ glassless compensated images; and h) creating a glassless final color facial image on the basis of the R’, G’, and B’ compensated images.
    • 图像处理方法通过使用递归主成分分析(PCA)重建从彩色正面脸部图像承载眼镜获得无玻璃图像。 该图像处理方法包括以下步骤:a)接收RGB彩色正面面部图像; b)从接收到的RGB彩色正面面部图像中提取眼睛区域的候选者; c)确定候选者中的精确眼睛区域并对所接收的RGB彩色正面面部图像进行归一化; d)通过使用包含在接收的RGB彩色正面图像中的颜色信息和眼镜框架的边缘信息来提取眼镜框区域; e)对归一化的正面面部图像执行RGB-HIS变换; f)产生H',S'和I'玻璃化补偿图像; g)通过对H',S'和I'无玻璃光补偿的图像执行HIS-RGB变换来获得R',G'和B'补偿图像; 以及h)基于R',G'和B'补偿图像创建无玻璃色的最终彩色面部图像。