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    • 2. 发明授权
    • Illuminator and projector
    • 照明器和投影机
    • US07481538B2
    • 2009-01-27
    • US11428461
    • 2006-07-03
    • Makoto FurusawaAkira HashimotoToru KuriharaHiroyuki Shindo
    • Makoto FurusawaAkira HashimotoToru KuriharaHiroyuki Shindo
    • G03B21/14
    • G03B21/2073G02B27/0994G02B27/283Y10S385/901
    • An illuminator includes a polarization converter that converts source light into first polarized light, a polarization separation member that separates the first polarized light of from the polarization converter and second polarized light different from the first polarized light, by reflection and transmission, a polarization switch member that reflects the first polarized light passed through the polarization separation member and changes same into the second polarized light, and a light guide having a first rod arranged between the polarization converter and the polarization separation member, a second rod arranged between the polarization separation member and the polarization switch member, and a third rod arranged on an optical path of the second polarized light separated by the polarization separation member.
    • 照明装置包括将源光转换为第一偏振光的偏振转换器,通过反射和透射分离偏振转换器的第一偏振光和与第一偏振光不同的第二偏振光的偏振分离部件,偏振切换部件 其反射通过所述偏振分离部件的第一偏振光并将其变化为第二偏振光,以及具有设置在所述偏振转换器和所述偏振分离部件之间的第一杆的导光体,配置在所述偏振光分离部件和所述偏振光分离部件之间的第二杆 所述偏振光开关部件以及配置在由所述偏振光分离部件分离的所述第二偏振光的光路上的第三杆。
    • 3. 发明申请
    • IMAGE PROCESSING DEVICE AND COMPUTER PROGRAM
    • 图像处理设备和计算机程序
    • US20130148876A1
    • 2013-06-13
    • US13818097
    • 2011-08-31
    • Yuichi AbeHiroyuki Shindo
    • Yuichi AbeHiroyuki Shindo
    • G06K9/62
    • G06K9/62G01B15/04H01J37/28H01J2237/221H01J2237/248H01J2237/2817
    • The purpose of the present invention is to provide an image processing apparatus and a computer program such that correspondence points between design data and an edge line or between edge lines can be accurately identified for their matching. In an embodiment for achieving the purpose, when positioning between a first pattern formed by a first line segment and a second pattern formed by a second line segment is performed, a first correspondence point and a second correspondence point are set on the first line segment and the second line segment, respectively; a degree of alignment for performing the positioning of the first pattern and the second pattern is calculated on the basis of the distance between the first correspondence point and the second correspondence point; and the position of the first correspondence point and/or the second correspondence point is changed in accordance with a shape difference between the first line segment and the second line segment (see FIG. 2).
    • 本发明的目的是提供一种图像处理装置和计算机程序,使得可以准确地识别设计数据与边缘线之间或边缘线之间的对应点以进行匹配。 在实现该目的的实施例中,当在由第一线段形成的第一图案和由第二线段形成的第二图案之间进行定位时,在第一线段上设置第一对应点和第二对​​应点, 第二线段; 基于第一对应点和第二对​​应点之间的距离来计算用于执行第一图案和第二图案的定位的对准程度; 并且第一对应点和/或第二对应点的位置根据第一线段和第二线段之间的形状差异而变化(参见图2)。
    • 5. 发明授权
    • System and method of image processing, and scanning electron microscope
    • 图像处理系统和方法,扫描电子显微镜
    • US08094920B2
    • 2012-01-10
    • US11520800
    • 2006-09-14
    • Akiyuki SugiyamaHiroyuki Shindo
    • Akiyuki SugiyamaHiroyuki Shindo
    • G06K9/00G06K9/36G06K9/46
    • G06T7/001G06K9/6203G06T2207/30148H01J37/222H01J37/28H01J2237/2817
    • A scanning electron microscope comprises an image processing system for carrying out a pattern matching between a first image and a second image. The image processing system comprises: a paint-divided image generator for generating a paint divided image based on the first image; a gravity point distribution image generator for carrying out a smoothing process of the paint divided image and generating a gravity point distribution image; an edge line segment group generation unit for generating a group of edge line segments based on the second image; a matching score calculation unit for calculating a matching score based on the gravity point distribution image and the group of edge line segments; and a maximum score position detection unit for detecting a position where the matching score becomes the maximum.
    • 扫描电子显微镜包括用于执行第一图像和第二图像之间的图案匹配的图像处理系统。 图像处理系统包括:油漆分割图像生成器,用于基于第一图像生成油漆分割图像; 重力点分布图像发生器,用于执行油漆分割图像的平滑处理并产生重力点分布图像; 边缘线段组生成单元,用于基于第二图像生成一组边缘线段; 匹配分数计算单元,用于基于重力点分布图像和边缘线段组来计算匹配分数; 以及最大得分位置检测单元,用于检测匹配得分变为最大值的位置。
    • 6. 发明授权
    • Optical pickup apparatus
    • 光拾取装置
    • US08087037B2
    • 2011-12-27
    • US13036739
    • 2011-02-28
    • Ryoichi KawasakiHiroyuki Shindo
    • Ryoichi KawasakiHiroyuki Shindo
    • G11B7/085G11B7/09G11B7/135
    • G11B7/1374G11B7/0956G11B7/121G11B2007/0006
    • An optical-pickup apparatus includes first and second objective lenses that focus first and second laser light on information-recording layers of first and second optical discs, the second optical disc having an information-recording format different from that of the first optical disc; and a lens holder that integrally holds the first and second objective lenses in an adjacent manner, a disc surface of the first optical disc and of the second optical disc being substantially parallel to confronting faces of the first and second objective lenses, that confront the disc surface, a minimum distance between the disc surface and the confronting faces in a direction of an optical axis of the turntable being greater than a thickness of the turntable in a direction of a rotation axis of the turntable, either one or both of the first and second objective lenses configured to focus bluish-violet laser light on an optical disc.
    • 光拾取装置包括将第一和第二激光聚焦在第一和第二光盘的信息记录层上的第一和第二物镜,第二光盘具有不同于第一光盘的信息记录格式; 以及以相邻的方式整体地保持所述第一和第二物镜的透镜保持架,所述第一光盘和所述第二光盘的盘表面基本上平行于所述第一和第二物镜的面对的所述盘, 在转台的光轴方向上的盘表面与面对面之间的最小距离大于转台的旋转轴的方向上的厚度,第一和第二 第二物镜被配置为将蓝紫色激光聚焦在光盘上。
    • 10. 发明申请
    • LENS DRIVING APPARATUS AND OPTICAL PICKUP UNIT HAVING THE SAME
    • US20070223320A1
    • 2007-09-27
    • US11683839
    • 2007-03-08
    • Ryoichi KawasakiHiroyuki Shindo
    • Ryoichi KawasakiHiroyuki Shindo
    • G11B11/00
    • G11B7/13925G02B7/08
    • A lens driving apparatus comprising: a first lens-barrel having a lens built thereinto; a second lens-barrel; an electromechanical conversion element that applies a driving force f1 to the first lens-barrel and a driving force f2 to the second lens-barrel; and a housing that supports the lateral surfaces of the first lens-barrel and the second lens-barrel such that a lens-barrel body is mounted slidably on the housing in the light axis direction of the lens, the lens barrel body being the first lens-barrel and the second lens-barrel connected via the electromechanical conversion element therebetween, wherein the electromechanical conversion element generates deformation which results in displacement in the light axis direction of the lens by applying a drive voltage, and wherein the first lens-barrel generates an inertia force IF1 and a friction force FF1 with the support surface of the housing by applying the driving force f1, and wherein the second lens-barrel generates an inertia force IF2 and a friction force FF2 with the support surface of the housing by applying the driving force f2, and wherein the lens-barrel body is driven to one side in the light axis direction of the lens, such that a relationship of f1 IF2+FF2 holds, when the electromechanical conversion element generates the deformation so as to increase an interval between the first lens-barrel and the second lens-barrel, and such that a relationship of f1>IF1+FF1 as well as f2 IF1+FF1 as well as f2 IF2+FF2 holds, when the electromechanical conversion element generates the deformation so as to reduce an interval between the first lens-barrel and the second lens-barrel.