公开(公告)号：US20090244339A1

公开(公告)日：2009-10-01

申请号：US12415293

申请日：2009-03-31

Applicant: Takashi Murooka ,  Hideyasu Ishibashi

Inventor： Takashi Murooka ,  Hideyasu Ishibashi

IPC: H04N5/335

CPC classification number: H04N9/09 ,  H04N9/045 ,  H04N2005/2255

Abstract: Provided is an image capturing apparatus comprising a plurality of first light receiving elements that are arranged on substantially the same plane and that each receive light of a first color component from a subject; a plurality of second light receiving elements that are arranged on substantially the same plane and with a higher surface density than the plurality of first light receiving elements, and that each receive light of a second color component from the subject; and a polarizing section that blocks polarized light components from the subject except for a first polarized light component so that first-polarized-light receiving elements, which are a portion of the plurality of second light receiving elements, receive the first polarized light component from the subject, the first-polarized-light receiving elements transmitting the light from the subject to be received by the plurality of first light receiving elements.

Abstract translation: 提供了一种图像捕获装置，包括多个第一光接收元件，其布置在基本上相同的平面上并且每个接收来自被摄体的第一颜色成分的光; 多个第二光接收元件，其布置在与所述多个第一光接收元件基本上相同的平面上且具有更高的表面密度，并且每个从所述被摄体接收第二颜色成分的光; 以及偏振部件，其阻挡来自所述被摄体的偏振光分量，除了第一偏振光分量，使得作为所述多个第二光接收元件的一部分的第一偏振光接收元件从所述第一偏振光分量接收所述第一偏振光分量 第一偏振光接收元件将来自被摄体的光透射以由多个第一光接收元件接收。

公开(公告)号：US08626273B2

公开(公告)日：2014-01-07

申请号：US13281246

申请日：2011-10-25

Applicant: Hiroshi Yamaguchi ,  Takayuki Iida ,  Hiroaki Yasuda ,  Takashi Murooka

Inventor： Hiroshi Yamaguchi ,  Takayuki Iida ,  Hiroaki Yasuda ,  Takashi Murooka

IPC: A61B6/00

CPC classification number: G02B23/2469 ,  A61B1/00009 ,  A61B1/043 ,  A61B1/063 ,  A61B1/0638 ,  A61B1/0646 ,  A61B1/0653

Abstract: White light and excitation light are applied to an internal body part. An electronic endoscope captures a normal image of the internal body part irradiated with the white light, and a special image of autofluorescence emitted from living body tissue of the internal body part irradiated with the excitation light. An object distance detector detects an object distance between a CCD and an inspection area of the internal body part based on the normal image. A binning processing section applies a binning process to the special image. There are two types of binning processes, i.e. an intensity adjustment process and a resolution adjustment process. In the intensity adjustment process, the binning number is increased with increase in the object distance. In the resolution adjustment process, the binning number is decreased with increase in the object distance. Which process to perform is determined by operation on a processing type selector.

Abstract translation: 白光和激发光被施加到内部身体部位。 电子内窥镜捕获用白光照射的内部身体部位的正常图像，以及由激发光照射的内部身体部位的生物体组织发出的自发荧光的特殊图像。 物体距离检测器基于正常图像检测CCD与内部身体部位的检查区域之间的物体距离。 分箱处理部分将特征图像应用于分箱处理。 有两种类型的合并过程，即强度调整过程和分辨率调整过程。 在强度调整过程中，随着对象距离的增加，合并数增加。 在分辨率调整过程中，合并数随着物距的增加而减小。 通过对处理类型选择器进行操作确定执行哪个进程。

公开(公告)号：US20120101348A1

公开(公告)日：2012-04-26

申请号：US13281246

申请日：2011-10-25

Applicant: Hiroshi Yamaguchi ,  Takayuki Iida ,  Hiroaki Yasuda ,  Takashi Murooka

Inventor： Hiroshi Yamaguchi ,  Takayuki Iida ,  Hiroaki Yasuda ,  Takashi Murooka

IPC: A61B5/1459 ,  A61B1/04

CPC classification number: G02B23/2469 ,  A61B1/00009 ,  A61B1/043 ,  A61B1/063 ,  A61B1/0638 ,  A61B1/0646 ,  A61B1/0653

Abstract: White light and excitation light are applied to an internal body part. An electronic endoscope captures a normal image of the internal body part irradiated with the white light, and a special image of autofluorescence emitted from living body tissue of the internal body part irradiated with the excitation light. An object distance detector detects an object distance between a CCD and an inspection area of the internal body part based on the normal image. A binning processing section applies a binning process to the special image. There are two types of binning processes, i.e. an intensity adjustment process and a resolution adjustment process. In the intensity adjustment process, the binning number is increased with increase in the object distance. In the resolution adjustment process, the binning number is decreased with increase in the object distance. Which process to perform is determined by operation on a processing type selector.

Abstract translation: 白光和激发光被施加到内部身体部位。 电子内窥镜捕获用白光照射的内部身体部位的正常图像，以及由激发光照射的内部身体部位的生物体组织发出的自发荧光的特殊图像。 物体距离检测器基于正常图像检测CCD与内部身体部位的检查区域之间的物体距离。 分箱处理部分将特征图像应用于分箱处理。 有两种类型的合并过程，即强度调整过程和分辨率调整过程。 在强度调整过程中，随着对象距离的增加，合并数增加。 在分辨率调整过程中，合并数随着物距的增加而减小。 通过对处理类型选择器进行操作确定执行哪个进程。

公开(公告)号：US20060216142A1

公开(公告)日：2006-09-28

申请号：US11090284

申请日：2005-03-28

Applicant: Takashi Murooka ,  Hidekazu Kodama ,  Masahiko Yamamoto ,  Kenichi Shinohara ,  Akira Takahashi

Inventor： Takashi Murooka ,  Hidekazu Kodama ,  Masahiko Yamamoto ,  Kenichi Shinohara ,  Akira Takahashi

IPC: F01D11/08

CPC classification number: F01D11/08 ,  F01D5/141 ,  F02C3/06 ,  Y02T50/673

Abstract: An axial flow compressor is provided with a rotor blade row (10) which is formed such that an outlet cross sectional area is larger than an inlet cross sectional area so as to reduce a speed in an axial direction and reduce a pressure difference between a positive pressure surface and a negative pressure surface. Further, a stator blade row (11) is provided in a downstream side of the rotor blade row (10). An output cross sectional area of the stator blade row (11) is structured such as to be smaller than an inlet cross sectional area of the rotor blade row (10).

Abstract translation: 轴流式压缩机设置有转子叶片排（10），其形成为使得出口横截面面积大于入口横截面积，以便减小轴向速度并减小正向 压力表面和负压表面。 此外，定子叶片排（11）设置在转子叶片排（10）的下游侧。 定子叶片排（11）的输出横截面积被构造成小于转子叶片排（10）的入口横截面面积。

公开(公告)号：US07341425B2

公开(公告)日：2008-03-11

申请号：US11090284

申请日：2005-03-28

Applicant: Takashi Murooka ,  Hidekazu Kodama ,  Masahiko Yamamoto ,  Kenichi Shinohara ,  Akira Takahashi

Inventor： Takashi Murooka ,  Hidekazu Kodama ,  Masahiko Yamamoto ,  Kenichi Shinohara ,  Akira Takahashi

IPC: F01D11/08

CPC classification number: F01D11/08 ,  F01D5/141 ,  F02C3/06 ,  Y02T50/673

Abstract: An axial flow compressor is provided with a rotor blade row (10) which is formed such that an outlet cross sectional area is larger than an inlet cross sectional area so as to reduce a speed in an axial direction and reduce a pressure difference between a positive pressure surface and a negative pressure surface. Further, a stator blade row (11) is provided in a downstream side of the rotor blade row (10). An output cross sectional area of the stator blade row (11) is structured such as to be smaller than an inlet cross sectional area of the rotor blade row (10).

Abstract translation: 轴流式压缩机设置有转子叶片排（10），其形成为使得出口横截面面积大于入口横截面积，以便减小轴向速度并减小正向 压力表面和负压表面。 此外，定子叶片排（11）设置在转子叶片排（10）的下游侧。 定子叶片排（11）的输出横截面积被构造成小于转子叶片排（10）的入口横截面面积。

公开(公告)号：US07796205B2

公开(公告)日：2010-09-14

申请号：US12064591

申请日：2006-08-25

Applicant: Masaya Suzuki ,  Hirofumi Toyama ,  Koju Ito ,  Katsumi Sasata ,  Hiromoto Haruta ,  Kunihiro Atsumi ,  Takashi Murooka

Inventor： Masaya Suzuki ,  Hirofumi Toyama ,  Koju Ito ,  Katsumi Sasata ,  Hiromoto Haruta ,  Kunihiro Atsumi ,  Takashi Murooka

IPC: G02F1/1333 ,  C08J5/18 ,  B29C39/22 ,  C08B3/00 ,  C08F210/00

CPC classification number: B29C41/28 ,  B29K2001/00 ,  B29K2001/12 ,  B29K2023/38 ,  B29K2995/0034 ,  C08J5/18 ,  C08J2301/10 ,  C08L1/12 ,  C08L1/14 ,  G02B5/3083 ,  Y10T428/24355

Abstract: A polymer film, wherein when any point in the polymer film is taken as a center, a maximum difference between high and low film thicknesses within a range of 60 mm diameter is not more than 1 μm, an RMS value of a film thickness is 0 μm to 0.15 μm or a difference between maximum and minimum values of slow axis angle in any 60 mm×60 mm square in the polymer film is 0° to 0.40°; and a solution casting film-forming method comprising: casting a dope on a support; peeling the casted film, wherein a dry wind of 3 m/s to 15 m/s is applied to the casted film within 15 seconds from the casting, and wherein before the dry wind is applied to the casted film, an air floating on a surface of the casted film has a wind velocity of less than 3 m/s.

Abstract translation: 聚合物膜，其中当聚合物膜中的任何点作为中心时，直径60mm范围内的高和低膜厚度之间的最大差异不大于1μm，膜厚的RMS值为0 聚合物膜中的任何60mm×60mm见方的慢轴角度的最大值与最小值的差为0〜0.40μm， 以及溶液流延膜形成方法，包括：在支撑体上铸造涂料; 剥离铸塑膜，其中在铸造15秒内向铸塑膜施加3m / s至15m / s的干燥风，并且其中在将干燥风施加到铸塑膜之前，将浮在其上的空气 铸膜的表面具有小于3m / s的风速。

公开(公告)号：US20090135344A1

公开(公告)日：2009-05-28

申请号：US12064591

申请日：2006-08-25

Applicant: Masaya Suzuki ,  Hirofumi Toyama ,  Koju Ito ,  Katsumi Sasata ,  Hiromoto Haruta ,  Kunihiro Atsumi ,  Takashi Murooka

Inventor： Masaya Suzuki ,  Hirofumi Toyama ,  Koju Ito ,  Katsumi Sasata ,  Hiromoto Haruta ,  Kunihiro Atsumi ,  Takashi Murooka

IPC: C08J5/18 ,  B29C39/22 ,  C08B3/00 ,  C08F210/00 ,  G02F1/1335

CPC classification number: B29C41/28 ,  B29K2001/00 ,  B29K2001/12 ,  B29K2023/38 ,  B29K2995/0034 ,  C08J5/18 ,  C08J2301/10 ,  C08L1/12 ,  C08L1/14 ,  G02B5/3083 ,  Y10T428/24355

Abstract: A polymer film, wherein when any point in the polymer film is taken as a center, a maximum difference between high and low film thicknesses within a range of 60 mm diameter is not more than 1 μm, an RMS value of a film thickness is 0 μm to 0.15 μm or a difference between maximum and minimum values of slow axis angle in any 60 mm×60 mm square in the polymer film is 0° to 0.40°; and a solution casting film-forming method comprising: casting a dope on a support; peeling the casted film, wherein a dry wind of 3 m/s to 15 m/s is applied to the casted film within 15 seconds from the casting, and wherein before the dry wind is applied to the casted film, an air floating on a surface of the casted film has a wind velocity of less than 3 m/s.

Abstract translation: 聚合物膜，其中当聚合物膜中的任何点作为中心时，直径60mm范围内的高和低膜厚之间的最大差异不大于1μm，膜厚的RMS值为0 在0.15μm以上，在聚合物膜的任意60mm×60mm见方的慢轴角度的最大值与最小值的差为0°〜0.40°; 以及溶液流延膜形成方法，包括：在支撑体上铸造涂料; 剥离铸塑膜，其中在铸造15秒内向铸塑膜施加3m / s至15m / s的干燥风，并且其中在将干燥风施加到铸塑膜之前，将浮在其上的空气 铸膜的表面具有小于3m / s的风速。

公开(公告)号：US4975737A

公开(公告)日：1990-12-04

申请号：US464081

申请日：1990-01-12

Applicant: Takashi Murooka ,  Koji Takahashi

Inventor： Takashi Murooka ,  Koji Takahashi

IPC: G03B27/73 ,  H04N1/60

CPC classification number: H04N1/6027

Abstract: For a color photosensitive material, a conversion table is created in order to convert three-color separation densities into Densities obtained by monochromatic Exposure (DME), and characteristic curves with respect to the DME's are created. The conversion table is used in order to convert three-color separation densities of respective picture elements of an incorrectly exposed image into DME's corresponding to the respective picture elements. The characteristic curves with respect to the DME's are used in order to convert the DME's corresponding to the respective picture elements of the incorrectly exposed image into DME's which correspond to a correctly exposed image. An image is then reproduced on the basis of the DME's which correspond to a correctly exposed image and which are thus found for the respective picture elements.

Abstract translation: 对于彩色感光材料，创建转换表以便将三色分离密度转换成通过单色曝光（DME）获得的密度，并且产生关于DME的特征曲线。 使用转换表以将不正确曝光的图像的各个图像的三色分离密度转换成对应于各个图像元素的DME。 使用相对于DME的特征曲线，以将对应于不正确曝光的图像的相应图像的DME转换成对应于正确曝光的图像的DME。 然后基于对应于正确曝光的图像并因此针对各个图像元素找到的DME再现图像。