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    • 1. 发明授权
    • Ink supply control device for printing machines and a method therefor
    • 印刷机油墨供应控制装置及其方法
    • US06389968B1
    • 2002-05-21
    • US09537239
    • 2000-03-28
    • Hiroshi SugimotoHideki IkedaYukio Ejiri
    • Hiroshi SugimotoHideki IkedaYukio Ejiri
    • B41F340
    • B41F33/0045B41P2233/51G01J3/46G01J3/463G01J3/513G01J2003/466
    • Solid-patches 11, 12, and 13 each printed with color-inks of cyan, magenta, yellow, and a gray patch 14 included in a color bar 15 are printed on a printed-matter 10. A measuring and calculation device 4 measures actual ink densities at each of the solid-patches and gray patches in the color bars 15 and obtains differential values between the actual ink densities and target ink densities at the gray patch 14. Then, both the amount of the primary-color-component and that of the color-impurity-component at the solid patches 11, 12, and 13 are respectively substituted into equations at every detection of the differential values and that of the gray patches. In this way, ink supply volume is adjusted as a result of converting the differential values into primary-color-component differential amount in each of the color-inks.
    • 印刷有彩色条15的青色,品红色,黄色和灰色色调14的彩色墨水的实心贴片11,12,13印刷在印刷品10上。测量和计算装置4测量实际 在彩色条15中的每个固体斑块和灰色斑块处的油墨密度,并获得灰色贴片14的实际油墨浓度和目标油墨密度之间的差值。然后,原色组分的量和 在固体斑块11,12和13处的颜色杂质成分的每个检测差异值和灰色斑块的每个检测分别被代入方程式。 以这种方式,通过将差分值转换成每种颜色油墨中的原色分量差异量来调节墨水供应量。
    • 3. 发明申请
    • ORGANIC EL DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME
    • 有机EL显示装置及其制造方法
    • US20130299808A1
    • 2013-11-14
    • US13980310
    • 2012-01-31
    • Hiroshi SugimotoTohru Sonoda
    • Hiroshi SugimotoTohru Sonoda
    • H01L51/52H01L51/56
    • H01L51/5203H01L27/3258H01L51/5271H01L51/56H01L2251/5323
    • In an organic EL display device (100), an insulating layer (113) includes a first insulating film (113a) and a second insulating film (113b) provided thereabove, a plurality of upper electrodes (115c) are each provided to cover a corresponding one of a plurality of organic EL layers (115b), and a reflection film (114) is provided between the first insulating film (113a) and the second insulating film (113b), corresponding to a region N other than the a light emission region. The reflection film (114) reflects toward a sealing substrate (120) a portion of light generated in each organic EL layer (115b) which is diffused into the region N other than the light emission region so that the portion of the light is transmitted through a separation wall portion (116) and the sealing substrate (120) to be viewed as an image on the sealing substrate.
    • 在有机EL显示装置(100)中,绝缘层(113)包括设置在其上方的第一绝缘膜(113a)和第二绝缘膜(113b),多个上电极(115c)分别设置成覆盖相应的 在第一绝缘膜(113a)和第二绝缘膜(113b)之间设置有多个有机EL层(115b)中的一个和反射膜(114),对应于除了发光区域 。 反射膜(114)朝向密封基板(120)反射在每个有机EL层(115b)中产生的一部分光,其被扩散到除了发光区域之外的区域N中,使得该部分光被透过 分隔壁部分(116)和密封基板(120),以被视为密封基板上的图像。
    • 4. 发明授权
    • Electronic camera
    • 电子相机
    • US08284300B2
    • 2012-10-09
    • US12541740
    • 2009-08-14
    • Hiroshi SugimotoTakanori Sato
    • Hiroshi SugimotoTakanori Sato
    • H04N5/235
    • H04N5/23212H04N5/23219H04N5/23245H04N5/2628
    • An electronic camera includes an imaging device. The imaging device has an imaging surface irradiated with an optical image of an object scene. A CPU executes an AF process based on output of an AF evaluating circuit to adjust a position of a focus lens to a position to be optically converged on a specific object present in an object scene. Upon completion of the AF process, the CPU detects a distance from a lens distal end to the specific object by referencing a current position of the focus lens, and further detects brightness information of the object scene based on output of an AE/AWB evaluating circuit. Moreover, the CPU adjusts an imaging parameter by determining whether or not an object scene attribute including the detected distance and brightness information satisfies a predetermined condition.
    • 电子照相机包括成像装置。 成像装置具有用物体场景的光学图像照射的成像表面。 CPU基于AF评估电路的输出执行AF处理,以将聚焦透镜的位置调整到光学会聚在存在于对象场景中的特定对象上的位置。 在完成AF处理后,CPU通过参照聚焦透镜的当前位置来检测从透镜远端到特定物体的距离,并且还基于AE / AWB评估电路的输出来检测物体场景的亮度信息 。 此外,CPU通过确定包括检测到的距离和亮度信息的对象场景属性是否满足预定条件来调整成像参数。
    • 6. 发明授权
    • Electronic camera
    • 电子相机
    • US08179450B2
    • 2012-05-15
    • US12576947
    • 2009-10-09
    • Hiroshi Sugimoto
    • Hiroshi Sugimoto
    • H04N5/228H04N5/222H04N5/232G06K9/00G06K9/46G06K9/62
    • H04N5/232G06K9/00228H04N5/23219
    • An electronic camera includes an imager. The imager, having an imaging surface capturing an object scene, outputs an object scene image. A CPU searches a face portion of a person from the object scene based on the object scene image outputted from the imager. Moreover, the CPU sets to the imaging surface a cross area having a shape different depending on each attitude of the discovered face portion, in a manner to correspond to the discovered face portion. The CPU refers to an image of the cross area thus set so as to adjust imaging parameters such as a focus and an exposure amount.
    • 电子照相机包括成像器。 具有拍摄对象场景的成像表面的成像器输出对象场景图像。 基于从成像器输出的对象场景图像,CPU从对象场景搜索人脸部分。 此外,CPU以对应于所发现的脸部部分的方式,将具有取决于所发现的面部的每个姿态的形状的横截面设置到成像表面。 CPU是指如此设置的交叉区域的图像,以便调整诸如焦点和曝光量的成像参数。
    • 7. 发明申请
    • ELECTRONIC CAMERA
    • 电子相机
    • US20110292249A1
    • 2011-12-01
    • US13115375
    • 2011-05-25
    • Hiroshi SugimotoNaoki Yonetani
    • Hiroshi SugimotoNaoki Yonetani
    • H04N9/68H04N5/228
    • H04N5/23212
    • An electronic camera includes an imager. An imager, having an imaging surface capturing a scene, outputs an image. A specific key is transitioned among a non-operated state, a first operated state and a second operated state. A sensor senses the specific key being transitioned from the non-operated state to another state. A setter sets a reference indicating a magnitude different depending on a state of the specific key, in response to a sensing of the sensor. An adjuster adjusts an imaging condition based on the image outputted from the imager. A controller determines whether or not a variation of the scene captured by the imaging surface exceeds the reference set by the setter, so as to permit an adjusting process of the adjuster corresponding to a positive determined result while restrict the adjusting process of the adjuster corresponding to a negative determined result.
    • 电子照相机包括成像器。 具有捕获场景的成像表面的成像器输出图像。 特定键在非操作状态,第一操作状态和第二操作状态之间转变。 传感器感测到从非操作状态转换到另一状态的特定键。 响应于传感器的感测,设定器设置指示取决于特定键的状态而不同的幅度的参考。 调整器基于从成像器输出的图像来调整成像条件。 控制器确定由成像表面拍摄的场景的变化是否超过由设定者设定的参考,以便允许调节器对应于肯定确定结果的调整处理,同时限制对应于 否定确定结果。
    • 8. 发明申请
    • Method and Apparatus of Controlling Quality of Printed Image for Color Printing Press
    • 彩色印刷机印刷图像质量控制方法与装置
    • US20090188403A1
    • 2009-07-30
    • US12363544
    • 2009-01-30
    • Hiroshi Sugimoto
    • Hiroshi Sugimoto
    • B41F31/02
    • B41F31/13B41F31/02B41F33/0045
    • A method and an apparatus of the present invention is capable of matching an image of a printed matter with a desired image with high accuracy by adjusting tints even when tints change while printing. There are provided a measurement means that measures gray Lab values of a printed matter, a calculation means that calculates ΔL, Δa, and Δb that are differences between the measured Lab values and predetermined target gray Lab values, a first correction value calculation means that corrects Δa based on Δb, a second correction value calculation means that corrects ΔL based on a corrected value Δa1 that has been calculated by the first correction value calculation means, a halftone density difference calculation means that calculates halftone density differences of C, M, and Y based on Δb, Δa1 and ΔL1 obtained by correcting ΔL, an ink density difference conversion means that converts the calculated C, M, and Y halftone density differences into ink density differences, and an ink feed amount adjustment means that adjusts the ink feed amount for the ink fountain keys based on the ink density differences.
    • 本发明的方法和装置能够通过即使在打印时色调改变时调节色调,也可以高精度地匹配印刷物的图像与期望的图像。 提供了一种测量装置,其测量印刷品的灰色实验室值,计算装置,其计算作为测量的实验室值和预定目标灰色实验室值之间的差值的DeltaL,Deltaa和Deltab,第一校正值计算装置, 基于Deltab的Deltaa,第二校正值计算装置,基于由第一校正值计算装置计算出的校正值Deltaa1校正DeltaL;计算C,M和Y的半色调浓度差的半色调浓度差计算装置 基于通过校正DeltaL获得的Deltab,Deltaa1和DeltaL1,将计算出的C,M和Y半色调浓度差转换为墨密度差的墨密度差转换装置,以及调墨装置, 基于油墨密度差异的墨斗键。