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    • 1. 发明授权
    • System and method for controlling microscope
    • 控制显微镜的系统和方法
    • US07215467B2
    • 2007-05-08
    • US10464583
    • 2003-06-17
    • Shuji Nakagawa
    • Shuji Nakagawa
    • G02B21/00
    • G02B21/241G02B21/26G02B21/365
    • A CPU determines an optical-axis direction moving interval of a focal point of a microscope based on a wavelength of light used for sample observation by the microscope and a numerical aperture of an object lens mounted on the microscope, and controls the microscope so as to sequentially move a position of the focal point of the microscope with respect to a sample position in the optical-axis direction at determined moving intervals. Every time the control moves the position, with respect to the sample position, of the focal point at the moving interval, the microscope is so controlled as to sequentially obtain a microscopic image produced when the position of the focal point is at a position after the moving.
    • CPU根据显微镜的样本观察用的光的波长和安装在显微镜上的物镜的数值孔径来确定显微镜的焦点的光轴方向移动间隔,并且控制显微镜,以便 以确定的移动间隔相对于光轴方向上的样本位置顺序地移动显微镜的焦点的位置。 每当控制器以移动间隔移动焦点相对于样品位置的位置时,显微镜被如此地控制,以便当焦点的位置在位置之后产生的微观图像时 移动。
    • 2. 发明授权
    • Microscopic image capture apparatus and microscopic image capturing method
    • 显微图像捕获装置和显微图像捕获方法
    • US07016109B2
    • 2006-03-21
    • US10655354
    • 2003-09-03
    • Shuji Nakagawa
    • Shuji Nakagawa
    • G02B21/00
    • G02B21/367
    • A microscopic image capturing apparatus and method are provided. First, the entire area of a slide glass on a stage is divided into field size sections (low-magnification sections) of a low-powered objective lens. The stage is transferred perpendicular to an optical axis, and image information is sequentially obtained for each low-magnification section. Each low-magnification section is divided into high-magnification size sections (high-magnification sections), and a high-magnification image is captured using a high-powered objective lens only in high-magnification sections corresponding to a sample. A high-magnification image is generated by correctly maintaining the relative position between the obtained image information and an area corresponding to high-magnification sections which are not captured, and high-magnification composite image information of the sample is generated.
    • 提供了一种显微图像捕获装置和方法。 首先,将台架上的载玻片的整个区域划分为低功率物镜的场尺寸部分(低倍率部分)。 平台垂直于光轴转移,并且对于每个低倍率部分依次获得图像信息。 每个低倍率部分被分成高倍率尺寸部分(高倍率部分),并且仅在对应于样本的高倍率部分中使用高功率物镜捕获高倍率图像。 通过正确地维持所获得的图像信息和与未被捕获的高倍率部分相对应的区域之间的相对位置,生成高倍率图像,并且生成样本的高倍率合成图像信息。
    • 3. 发明申请
    • Microscopic image capture apparatus and microscopic image capturing method
    • 显微图像捕获装置和显微图像捕获方法
    • US20050190437A1
    • 2005-09-01
    • US11121369
    • 2005-05-03
    • Shuji Nakagawa
    • Shuji Nakagawa
    • G02B21/36G06T3/00G02B21/00G02B13/00
    • G02B21/367
    • A microscopic image capture apparatus and a microscopic image capturing method allow a wide-angle field and high-precision microscope digital image to be efficiently captured. First, the entire area of a slide glass on a stage is divided into field size sections (low-magnification sections) of a low-powered objective lens, the stage is sequentially transferred perpendicular to an optical axis, image information is obtained for each low-magnification section of the entire area, each low-magnification section is divided into high-magnification size sections (high-magnification sections), a high-magnification image is captured using a high-powered objective lens only on a high-magnification section including simultaneously in the high-magnification sections, a high-magnification image is generated by correctly maintaining the relative position between the obtained image information and the area of a high-magnification section which is not captured, and a high-magnification composite image information about a sample on the slide glass is generated.
    • 微观图像捕获装置和显微图像捕获方法允许有效捕获广角场和高精度显微镜数字图像。 首先,将台架上的载玻片的整个区域划分为低功率物镜的场尺寸部(低倍率部),与光轴垂直地转移,对于每个低的像素,获得图像信息 整个区域的放大部分,每个低倍率部分被分成高倍率尺寸部分(高倍率部分),仅在高倍率部分上使用高功率物镜捕获高倍率图像,高倍率部分包括 同时在高倍率部分中,通过正确地保持所获得的图像信息和未被捕获的高倍率部分的区域之间的相对位置以及关于高倍率部分的高倍率合成图像信息,生成高倍率图像 产生载玻片上的样品。
    • 4. 发明授权
    • Revolver control device
    • 左轮手枪控制装置
    • US5737134A
    • 1998-04-07
    • US662449
    • 1996-06-10
    • Akira WatanabeShuji Nakagawa
    • Akira WatanabeShuji Nakagawa
    • G02B7/16G02B21/24G02B21/00
    • G02B21/248
    • A revolver control device of this invention includes a revolver rotatably formed and having a plurality of mounting holes which contain a specified mounting hole corresponding to a specified objective and in which a plurality of objectives containing the specified objective are respectively mounted, recognition circuit for recognizing at least one of one of the plurality of objectives and one of the plurality of mounting holes which lies on an observation optical axis, driving circuit for giving the rotation driving force to the revolver to move one of the plurality of objectives onto the observation optical axis, and control circuit for controlling the driving circuit to prevent the specified objective mounted on the revolver or the specified mounting hole from being passed through the observation optical axis by rotation of the revolver when at least one of the objective and mounting hole recognized by the recognition circuit is replaced by at least one of the plurality of objectives and mounting holes which is used as one of a target objective and a target hole.
    • 本发明的左轮手枪控制装置包括可旋转地形成并具有多个安装孔的左轮手枪,其具有对应于特定目标的特定安装孔,并且其中分别安装有包含特定目标的多个目标,识别电路用于识别 多个目标中的一个中的至少一个和位于观察光轴上的多个安装孔中的一个安置孔中的一个,用于向旋转轮提供旋转驱动力的驱动电路将多个物体中的一个物体移动到观察光轴上, 以及用于控制所述驱动电路的控制电路,以便当所述识别电路识别出的所述物镜和安装孔中的至少一个时,通过所述转轮的旋转来防止安装在所述左轮手枪或所述指定安装孔上的指定物镜通过所述观察光轴 被多个目标中的至少一个替代 以及用作目标物体和目标孔之一的安装孔。
    • 6. 发明授权
    • Microscopic image capture apparatus
    • 显微镜摄像装置
    • US07250963B2
    • 2007-07-31
    • US10320132
    • 2002-12-16
    • Kiyoshi YuriShuji NakagawaTatsuki Yamada
    • Kiyoshi YuriShuji NakagawaTatsuki Yamada
    • H04N7/18H04N9/47
    • G02B21/365
    • The microscopic image capture apparatus includes: a slide glass transfer unit 17 transfers a slide glass 10 from a first slide glass storage unit 16 to a space under a microscope objective lens 11; a wide field-of-view image capture unit 60 captures the entire image of wide field-of-view of the slide glass 10 in synchronization with the transfer of the slide glass 10 by the slide glass transfer unit 17; a microscopic image capture unit 14 captures a microscopic image of the sample S on the slide glass 10 whose entire image of wide field-of-view has been captured by the wide field-of-view image capture unit 60; and a slide glass storage unit 18 stores the slide glass 10 whose sample S has been captured by the microscopic image capture unit 14 from the observation position of the microscope 11 into the second slide glass tray unit 19.
    • 显微图像捕获装置包括:载玻片转移单元17将载玻片10从第一载玻片存储单元16传送到显微镜物镜11下方的空间; 宽视野图像拍摄单元60与滑动玻璃转印单元17的载玻片10的转印同步地捕获载玻片10的整个视场的整个图像; 微观图像捕获单元14捕获由宽视野图像捕获单元60捕获其整个视野的整个图像的载玻片10上的样本S的显微镜图像; 并且载玻片存储单元18将其显微镜图像捕获单元14捕获的样品S的载玻片10从显微镜11的观察位置存储到第二载玻片托盘单元19中。
    • 8. 发明授权
    • Microscopic image capture apparatus and microscopic image capturing method
    • 显微图像捕获装置和显微图像捕获方法
    • US07248403B2
    • 2007-07-24
    • US11121369
    • 2005-05-03
    • Shuji Nakagawa
    • Shuji Nakagawa
    • G02B21/00
    • G02B21/367
    • A microscopic image capturing apparatus and method are provided. First, the entire area of a slide glass on a stage is divided into field size sections (low-magnification sections) of a low-powered objective lens. The stage is transferred perpendicular to an optical axis, and image information is sequentially obtained for each low-magnification section. Each low-magnification section is divided into high-magnification size sections (high-magnification sections), and a high-magnification image is captured using a high-powered objective lens only in high-magnification sections corresponding to a sample. A high-magnification image is generated by correctly maintaining the relative position between the obtained image information and an area corresponding to high-magnification sections which are not captured, and high-magnification composite image information of the sample is generated.
    • 提供了一种显微图像捕获装置和方法。 首先,将台架上的载玻片的整个区域划分为低功率物镜的场尺寸部分(低倍率部分)。 平台垂直于光轴转移,并且对于每个低倍率部分依次获得图像信息。 每个低倍率部分被分成高倍率尺寸部分(高倍率部分),并且仅在对应于样本的高倍率部分中使用高功率物镜捕获高倍率图像。 通过正确地维持所获得的图像信息和与未被捕获的高倍率部分相对应的区域之间的相对位置,生成高倍率图像,并且生成样本的高倍率合成图像信息。
    • 10. 发明申请
    • MICROSCOPIC IMAGE PICKUP APPARATUS
    • 微型图像拾取装置
    • US20120218400A1
    • 2012-08-30
    • US13404394
    • 2012-02-24
    • Tsutomu KURATAFumio UCHINOShuji NAKAGAWA
    • Tsutomu KURATAFumio UCHINOShuji NAKAGAWA
    • H04N7/18
    • G02B21/34G02B21/365
    • A microscopic image pickup apparatus for acquiring images of specimens on slide glass samples includes a slide holder pickup section by which the whole image of a slide holder on which a plurality of slide glass samples are arrayed is acquired, a slide glass sample macro-pickup section by which whole images of the slide glass samples are acquired, a slide glass sample micro-pickup section by which micro images of specimen areas of the slide glass samples are acquired under predetermined imaging conditions, and an imaging process control section generating a slide glass sample information management screen. The slide glass sample information management screen is displayed such that the array of display areas for displaying imaging conditions-setting means for setting imaging conditions and for displaying whole images of slide glass samples is paralleled with the array of slide glass samples on a slide holder.
    • 用于在载玻片样品上获取样本的图像的微观图像拾取装置包括滑块架拾取部分,其上排列有多个载玻片样品的滑块架的整个图像,载玻片样品宏观拾取部分 通过其获取载玻片样品的整个图像,在预定的成像条件下获取载玻片样品的样本区域的微观图像的载玻片样品微型拾取部分和产生载玻片样品的成像过程控制部分 信息管理屏幕。 显示载玻片样品信息管理屏幕,使得用于显示用于设置成像条件的成像条件设置装置和用于显示载玻片样品的整个图像的显示区域阵列与载玻片保持器上的载玻片样品阵列平行。