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    • 22. 发明申请
    • STEREOSCOPIC IMAGE PROCESSING DEVICE, METHOD, RECORDING MEDIUM AND STEREOSCOPIC IMAGING APPARATUS
    • 立体图像处理装置,方法,记录介质和立体成像装置
    • US20110235899A1
    • 2011-09-29
    • US13131496
    • 2009-11-25
    • Koichi Tanaka
    • Koichi Tanaka
    • H04N13/02G06K9/00
    • G06T7/33G06T2207/10012G06T2207/30196H04N13/10H04N13/243H04N13/246
    • An apparatus (10) includes a device for acquiring a plurality of images of an identical subject taken from a plurality of viewpoints; a device for selecting a prescribed image as a reference image, selecting an image other than the reference image as a target image from among the images, and detecting feature points from the reference image and corresponding points from the target image to generate pairs of the feature point and corresponding point, wherein feature of the feature point and the corresponding point in the same pair are substantially identical; a device for estimating geometrical transformation parameters for geometrically-transforming the target image such that y-coordinate values of the feature point and the corresponding point included in the same pair are substantially identical, wherein y-direction is orthogonal to a parallax direction of the viewpoints; and a device for geometrically-transforming the target image based on the parameters.
    • 一种装置(10),包括从多个视点取得相同对象的多个图像的装置; 用于选择规定图像作为参考图像的装置,从图像中选择除了参考图像之外的图像作为目标图像,以及从参考图像和来自目标图像的对应点检测特征点,以生成特征对 点和对应点,其中特征点和相同对中的对应点的特征基本相同; 用于估计用于几何变换目标图像的几何变换参数的装置,使得包括在同一对中的特征点和对应点的y坐标值基本相同,其中y方向与视点的视差方向正交 ; 以及用于基于参数对目标图像进行几何变换的装置。
    • 24. 发明授权
    • Method for manufacturing SOI substrate
    • 制造SOI衬底的方法
    • US07833878B2
    • 2010-11-16
    • US12162134
    • 2007-02-08
    • Shoji AkiyamaYoshihiro KubotaAtsuo ItoMakoto KawaiYuuji TobisakaKoichi Tanaka
    • Shoji AkiyamaYoshihiro KubotaAtsuo ItoMakoto KawaiYuuji TobisakaKoichi Tanaka
    • H01L21/30
    • H01L21/76254
    • A hydrogen ion-implanted layer is formed on the surface side of a first substrate which is a single-crystal silicon substrate. At least one of the surface of a second substrate, which is a transparent insulating substrate, and the surface of the first substrate is subjected to surface activation treatment, and the two substrates are bonded together. The bonded substrate composed of the single-crystal Si substrate and the transparent insulating substrate thus obtained is mounted on a susceptor and is placed under an infrared lamp. Light having a wave number range including an Si—H bond absorption band is irradiated at the bonded substrate for a predetermined length of time to break the Si—H bonds localized within a “microbubble layer” in the hydrogen ion-implanted layer, thereby separating a silicon thin film layer.
    • 在作为单晶硅衬底的第一衬底的表面侧上形成氢离子注入层。 作为透明绝缘基板的第二基板的表面和第一基板的表面中的至少一个进行表面活化处理,并且将两个基板接合在一起。 将由单晶Si衬底和由此获得的透明绝缘衬底构成的键合衬底安装在基座上并放置在红外灯下。 在键合衬底上照射具有Si-H键吸收带的波数范围的光,以预定的时间长度,以破坏位于氢离子注入层中的“微泡层”内的Si-H键,从而分离 硅薄膜层。
    • 25. 发明授权
    • Optical waveguide apparatus and method for manufacturing the same
    • 光波导装置及其制造方法
    • US07799589B2
    • 2010-09-21
    • US12076617
    • 2008-03-20
    • Shoji AkiyamaYoshihiro KubotoAtsuo ItoKoichi TanakaYuuji TobisakaMakoto Kawai
    • Shoji AkiyamaYoshihiro KubotoAtsuo ItoKoichi TanakaYuuji TobisakaMakoto Kawai
    • H01L21/00
    • G02B6/132G02B6/1347G02F1/0126G02F1/025G02F2202/105G02F2203/48Y10S438/967
    • An optical waveguide apparatus having a very simple structure that can modulate a signal light guided through an optical waveguide is provided. A photoresist 13 is applied to an upper side of an SOI film 12, a photoresist mask 14 is formed, and the SOI film in a region that is not covered with the photoresist mask 14 is removed by etching to obtain an optical waveguide 15 having a single-crystal silicon core. Further, a light emitting device capable of irradiating the single-crystal silicon core with a light having a wavelength of 1.1 μm or below is provided on a back surface side of a quartz substrate 20 to provide an optical waveguide apparatus. When the light emitting device 30 does not apply a light, the light guided through the optical waveguide 15 is guided as it is. However, when the light emitting device 30 applies a light to form each pair of an electron and a hole in the irradiated region 16, the light guided through the optical waveguide 15 is absorbed by the pair of an electron and a hole, thereby enabling switching (modulation) for turning ON/OFF an optical signal depending on presence/absence (ON or OFF) of application of the light from the light emitting device 30.
    • 提供一种具有可以调制通过光波导引导的信号光的非常简单结构的光波导装置。 将光致抗蚀剂13施加到SOI膜12的上侧,形成光致抗蚀剂掩模14,并且通过蚀刻除去未被光致抗蚀剂掩模14覆盖的区域中的SOI膜,以获得具有 单晶硅芯。 此外,在石英基板20的背面侧设置能够用波长为1.1μm以下的光照射单晶硅芯的发光装置,以提供光波导装置。 当发光器件30不施加光时,通过光波导15引导的光被原样引导。 然而,当发光器件30在照射区域16中施加光以形成每对电子和空穴时,通过光波导15引导的光被一对电子和空穴吸收,从而能够切换 (调制),用于根据来自发光装置30的光的施加的存在/不存在(ON或OFF)来接通/关闭光信号。
    • 30. 发明申请
    • Optical waveguide apparatus and method for manufacturing the same
    • 光波导装置及其制造方法
    • US20090032831A1
    • 2009-02-05
    • US12076617
    • 2008-03-20
    • Shoji AkiyamaYoshihiro KubotaAtsuo ItoKoichi TanakaYuuji TobisakaMakoto Kawai
    • Shoji AkiyamaYoshihiro KubotaAtsuo ItoKoichi TanakaYuuji TobisakaMakoto Kawai
    • H01L33/00
    • G02B6/132G02B6/1347G02F1/0126G02F1/025G02F2202/105G02F2203/48Y10S438/967
    • An optical waveguide apparatus having a very simple structure that can modulate a signal light guided through an optical waveguide is provided. A photoresist 13 is applied to an upper side of an SOI film 12, a photoresist mask 14 is formed, and the SOI film in a region that is not covered with the photoresist mask 14 is removed by etching to obtain an optical waveguide 15 having a single-crystal silicon core. Further, a light emitting device capable of irradiating the single-crystal silicon core with a light having a wavelength of 1.1 μm or below is provided on a back surface side of a quartz substrate 20 to provide an optical waveguide apparatus. When the light emitting device 30 does not apply a light, the light guided through the optical waveguide 15 is guided as it is. However, when the light emitting device 30 applies a light to form each pair of an electron and a hole in the irradiated region 16, the light guided through the optical waveguide 15 is absorbed by the pair of an electron and a hole, thereby enabling switching (modulation) for turning ON/OFF an optical signal depending on presence/absence (ON or OFF) of application of the light from the light emitting device 30.
    • 提供一种具有可以调制通过光波导引导的信号光的非常简单结构的光波导装置。 将光致抗蚀剂13施加到SOI膜12的上侧,形成光致抗蚀剂掩模14,并且通过蚀刻除去未被光致抗蚀剂掩模14覆盖的区域中的SOI膜,以获得具有 单晶硅芯。 此外,在石英基板20的背面侧设置能够用波长为1.1μm以下的光照射单晶硅芯的发光装置,以提供光波导装置。 当发光器件30不施加光时,通过光波导15引导的光被原样引导。 然而,当发光器件30在照射区域16中施加光以形成每对电子和空穴时,通过光波导15引导的光被一对电子和空穴吸收,从而能够切换 (调制),用于根据来自发光装置30的光的施加的存在/不存在(ON或OFF)来接通/关闭光信号。