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    • 91. 发明授权
    • 3D image shooting apparatus and endoscope
    • 3D图像拍摄装置和内窥镜
    • US09215966B2
    • 2015-12-22
    • US13456672
    • 2012-04-26
    • Katsuhiro KanamoriMasao Hiramoto
    • Katsuhiro KanamoriMasao Hiramoto
    • A61B1/04A61B1/00A61B1/06G03B35/08G03B35/18H04N13/02
    • A61B1/00096A61B1/00193A61B1/0646G03B35/08G03B35/18H04N13/207H04N13/254
    • In one embodiment, an element 106 transform, with a voltage, non-polarized light into plane polarized light with an arbitrary plane of polarization. A synchronizer 112 gives the plane of polarization control element 106 an instruction to rotate the plane of polarization, thereby getting the plane of polarization of the illumination rotated and casting that polarized light toward the object. At the same time, the synchronizer 112 sends a shooting start signal to an image sensor 110, thereby getting video. The synchronizer 112 performs these processing steps multiple times. A captured video signal is sent to an image processing processor 108, where LL, RR and CC images are separately generated as images of light rays that have passed through left and right polarizing areas and the central non-polarizing area and left and right parallax signals are generated and sent to a 3D display section 122.
    • 在一个实施例中,元件106将电压非偏振光转换成具有任意偏振平面的平面偏振光。 同步器112给偏振控制元件106的平面指示旋转偏振平面,从而使照明的偏振平面旋转并将该偏振光投射到物体。 同时,同步器112将拍摄开始信号发送到图像传感器110,从而获得视频。 同步器112多次执行这些处理步骤。 拍摄的视频信号被发送到图像处理处理器108,其中LL,RR和CC图像被分别生成为已经通过左右偏振区域的光线和中心非偏振区域以及左右视差信号 并被发送到3D显示部分122。
    • 92. 发明申请
    • ELECTROMAGNETIC LINEAR VALVE
    • 电磁线性阀
    • US20140291564A1
    • 2014-10-02
    • US14351743
    • 2011-11-04
    • Kei SatoMasaki NanaharaKatsuhiro KanamoriMasakuni SuzukiTakeshi Ishida
    • Kei SatoMasaki NanaharaKatsuhiro KanamoriMasakuni SuzukiTakeshi Ishida
    • F16K31/06
    • F16K31/0696B60T8/367F16K31/0655H01F2007/086
    • In an electromagnetic linear valve, a resilient member urges a plunger in a direction in which the core-opposing portions move away from a core portion, and moves the plunger in a direction in which the core-opposing portions approach the core portion where an electric current is supplied to a coil. Where no electric current is supplied to the coil, an axially opposing surface area as a surface area of portions of the core-opposing portions which respectively oppose inner peripheral surfaces of recessed portions is smaller than a radially opposing surface area as a surface area of portions of the core-opposing portions which respectively oppose bottom surfaces of the recessed portions, and the axially opposing surface area becomes larger than the radially opposing surface area where an electric current is supplied to the coil and the core-opposing portions approach most to the core portion.
    • 在电磁线性阀中,弹性构件沿芯部相对部分离开芯部的方向推动柱塞,并且使芯柱相对部分靠近芯部的方向移动, 电流被提供给线圈。 在不向线圈供给电流的情况下,作为分别与凹部的内周面相对的芯部相对部分的部分的表面积的轴向相对表面积小于作为部分的表面积的径向相对表面积 分别与凹部的底面相对的芯部对置部分,并且轴向相对的表面积变得大于向线圈提供电流的径向相对的表面积,并且芯部相对部分最接近芯部 一部分。
    • 93. 发明授权
    • Image capturing apparatus
    • 图像捕获装置
    • US07847825B2
    • 2010-12-07
    • US11240357
    • 2005-10-03
    • Katsuji AokiKatsuhiro Kanamori
    • Katsuji AokiKatsuhiro Kanamori
    • H04N5/232H04N5/222
    • H04N5/235
    • An image capturing apparatus (107-1) which captures an image of an object moving in a space where a light source (109) is placed, the light source emitting light whose intensity varies in a predetermined cycle, the imaging capturing apparatus includes: an imaging device (102-1) for capturing the image of the object and the light from the light source (109); a signal processing unit (103-1) for generating, from a signal outputted from the imaging device (102-1), an image signal that includes a picture sequence synchronized with an imaging apparatus drive signal obtained from the outside; and a phase difference detection unit (105-1), a phase different adjustment unit (106-1), and a drive signal generation unit (104-1), for generating a signal that is synchronized with the intensity variations of the light from the light source (109) which is captured by the imaging device (102-1), and outputting, as the imaging-apparatus drive signal, the generated signal into the signal processing unit (103-1).
    • 一种摄像装置,其拍摄在放置有光源(109)的空间中移动的物体的图像,所述光源发光,其强度以规定的周期变化,所述摄像装置包括: 用于捕获物体的图像和来自光源(109)的光的成像装置(102-1); 信号处理单元(103-1),用于根据从成像设备(102-1)输出的信号产生包括与从外部获得的成像设备驱动信号同步的图像序列的图像信号; 以及相位差检测单元(105-1),相位不同调整单元(106-1)和驱动信号生成单元(104-1)),用于产生与来自 由成像装置(102-1)捕获的光源(109),并将生成的信号作为成像装置驱动信号输出到信号处理单元(103-1)中。
    • 97. 发明申请
    • Image capturing apparatus
    • 图像捕获装置
    • US20060038915A1
    • 2006-02-23
    • US11240357
    • 2005-10-03
    • Katsuji AokiKatsuhiro Kanamori
    • Katsuji AokiKatsuhiro Kanamori
    • H04N5/222
    • H04N5/235
    • An image capturing apparatus (107-1) which captures an image of an object moving in a space where a light source (109) is placed, the light source emitting light whose intensity varies in a predetermined cycle, the imaging capturing apparatus includes: an imaging device (102-1) for capturing the image of the object and the light from the light source (109); a signal processing unit (103-1) for generating, from a signal outputted from the imaging device (102-1), an image lo signal that includes a picture sequence synchronized with an imaging apparatus drive signal obtained from the outside; and a phase difference detection unit (105-1), a phase different adjustment unit (106-1), and a drive signal generation unit (104-1), for generating a signal that is synchronized with the intensity variations of the light from the light source (109) which is captured by the imaging device (102-1), and outputting, as the imaging-apparatus drive signal, the generated signal into the signal processing unit (103-1).
    • 一种拍摄设备(107-1),其捕获在放置光源(109)的空间中移动的物体的图像,所述光源发射强度以预定周期变化,所述摄像装置包括: 用于捕获物体的图像和来自光源(109)的光的成像装置(102-1); 信号处理单元(103-1),用于根据从成像设备(102-1)输出的信号产生包括与从外部获得的成像设备驱动信号同步的图像序列的图像信号; 以及相位差检测单元(105-1),相位不同调节单元(106-1)和驱动信号生成单元(104-1)),用于产生与来自 由成像装置(102-1)捕获的光源(109),并将生成的信号作为成像装置驱动信号输出到信号处理单元(103-1)中。
    • 99. 发明授权
    • Apparatus for correction of color signal values
    • 用于校正彩色信号值的装置
    • US5241373A
    • 1993-08-31
    • US700692
    • 1991-05-16
    • Katsuhiro KanamoriHidehiko KawakamiHiroaki Kotera
    • Katsuhiro KanamoriHidehiko KawakamiHiroaki Kotera
    • G03F3/08G06T1/00G06T1/20G06T5/00G09G5/06H04N1/46H04N1/60H04N9/64H04N9/74
    • H04N1/6016H04N9/64
    • A color value correction apparatus for converting each of successive combinations of input tricolor digital values into an output color value in accordance with predetermined data stored in memory, includes three table memories which store values which are respective differences between color values corresponding to vertices of unit tetrahedra in a color space and a reference color value that is common to all of a set of tetrahedra forming one of an array of unit cubes or parallelepipeds which constitute that color space, and also includes a table memory that stores these reference color values. To obtain an interpolated output value, each of these memories is addressed three-dimensionally by the high-order bits of an input tricolor value combination to thereby specify one of the unit cubes or parallelepipeds, and the difference value memories are in addition addressed by a value, derived from the low-order bits of the input value combination, specifying a specific tetrahedron containing the interpolation point. An interpolated output value can thereby be obtained by executing only three multiplication operations followed by addition operations.
    • 一种颜色值校正装置,用于根据存储在存储器中的预定数据将输入三色数字值的连续组合中的每一个转换为输出颜色值,包括三个表存储器,其存储与单元四面体顶点对应的颜色值之间的差异 在构成所述颜色空间的单位立方体或平行六面体的阵列之一的四面体的全部的所有的颜色空间和参考颜色值中,还包括存储这些参考颜色值的表存储器。 为了获得内插的输出值,通过输入三色值组合的高位来三维地寻址这些存储器中的每一个,从而指定单位立方体或平行六面体之一,并且差值存储器另外由a 值,从输入值组合的低位导出,指定包含内插点的特定四面体。 因此,通过仅执行三次乘法运算,然后进行加法运算,可以获得内插输出值。
    • 100. 发明授权
    • Color conversion apparatus for altering color values within selected
regions of a reproduced picture
    • 用于改变再现图像的选定区域内的颜色值的颜色转换装置
    • US5202935A
    • 1993-04-13
    • US926188
    • 1992-08-07
    • Katsuhiro KanamoriTeruo FumotoHiroaki Kotera
    • Katsuhiro KanamoriTeruo FumotoHiroaki Kotera
    • H04N1/62
    • H04N1/628H04N1/62
    • A color conversion apparatus is described whereby color within at least one specific region of a color picture can be converted to a different color in a reproduced picture, while enabling gradations of color and lightness within that region to be left substantially unchanged. The conversion is based upon setting of pre-calculated output values in a table memory within a color conversion section, by an initialization operation, and conversion can be a change in one color attribute or in a combination of attributes of respective color values within the selected region. The table memory subsequently responds to successive input color values supplied thereto by producing color-converted output values which can be supplied for example to a color printer apparatus, with resultant degrees of color change being determined in accordance with degrees of closeness of one attribute or a combination of attributes of each input color value to the corresponding attribute or combination of attributes of a predetermined color value.
    • 描述了一种颜色转换装置,其中彩色图像的至少一个特定区域内的颜色可以转换成再现图像中的不同颜色,同时使该区域内的颜色和亮度的灰度基本上保持不变。 该转换基于通过初始化操作在颜色转换部分中的表存储器中的预先计算的输出值的设置,并且转换可以是所选择的一个颜色属性或各个颜色值的属性的组合的变化 地区。 表存储器随后通过产生可以例如提供给彩色打印机设备的颜色转换的输出值来响应所提供的连续的输入颜色值,其中颜色变化的合成度根据一个属性或 每个输入颜色值的属性与预定颜色值的对应属性或属性的组合的组合。