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    • 3. 发明授权
    • Apparatus and method for inspecting film defect
    • 检查薄膜缺陷的装置和方法
    • US07408633B2
    • 2008-08-05
    • US11359567
    • 2006-02-23
    • Takeshi NakajimaManabu HiguchiTakeshi Wakita
    • Takeshi NakajimaManabu HiguchiTakeshi Wakita
    • G01N21/00
    • G01N21/896
    • There is disclosed a defect inspection apparatus, wherein a light source projects a linear light onto a transparent film to inspect, so that a light receiver receives light beams transmitted through the film. The light receiver is placed to look down the film, with its optical axis inclined by a cross angle θ1 to a normal line that is perpendicular to the film surface, and the cross angle θ1 is set in a range from 30° to 50°. The optical axis of the light receiver is also turned about the normal line by a rotational angle θ2 to a transport direction (S) of the film. The rotational angle θ2 is set in a range from minus 60° to plus 60°, on the assumption that the transport direction is zero degree.
    • 公开了一种缺陷检查装置,其中光源将线性光投射到透明膜上以进行检查,使得光接收器接收透过膜的光束。 光接收器被放置以向下仰视胶片,其光轴以垂直于膜表面的法线倾斜十字角θ1,并且交角θ1设定在30°至50°的范围内 °。 光接收器的光轴也绕着法线转动到膜的输送方向(S)的旋转角θ2。 假设输送方向为零度,旋转角θ2设定在从负60°到正60°的范围内。
    • 5. 发明申请
    • MONITORING CAMERA DEVICE, MONITORING SYSTEM USING THE SAME, AND MONITORING IMAGE TRANSMISSION METHOD
    • 监视相机设备,使用该摄像机的监视系统和监视图像传输方法
    • US20090135252A1
    • 2009-05-28
    • US11720212
    • 2006-02-06
    • Keisuke MatsudaManabu HiguchiRyoji Ogino
    • Keisuke MatsudaManabu HiguchiRyoji Ogino
    • H04N7/18G06K9/36H04N5/225
    • H04L67/025G08B13/19656G08B13/19663H04L67/125H04N7/185
    • The invention includes an imaging unit for taking the image of a subject as the object of monitoring, a moving image extracting unit for extracting image data of each frame in every specific frame period from this image data, a motion image encoder for generating motion image data by compressing and coding the extracted image data, a change detecting unit for issuing a change detection signal showing a change in the subject, and a transport processing unit for processing data transport by changing over at least two types of communication protocols depending on the change detection signal. The transport processing unit transports the motion image data to a monitor terminal device through a network according to connection-less type communication protocol when the change detection signal shows no change, or according to connection type communication protocol when showing presence of change.
    • 本发明包括一个用于拍摄作为监视对象的被摄体的图像的成像单元,用于从该图像数据中提取每个特定帧周期中的每帧的图像数据的运动图像提取单元,用于产生运动图像数据的运动图像编码器 通过对所提取的图像数据进行压缩和编码,变更检测单元,用于发出表示对象变化的变化检测信号,以及传送处理单元,用于根据变化检测改变至少两种类型的通信协议来处理数据传输 信号。 当变化检测信号不显示变化时,或者根据连接类型的通信协议在显示存在变化时,传送处理单元通过网络通过网络将运动图像数据传送到监视终端设备。
    • 6. 发明申请
    • IMAGING APPARATUS
    • 成像设备
    • US20090189993A1
    • 2009-07-30
    • US12304373
    • 2007-03-09
    • Manabu Higuchi
    • Manabu Higuchi
    • H04N5/228G06K9/32
    • H04N5/2628G06T1/0007H04N1/0402H04N1/0405H04N1/0417H04N1/2112H04N2101/00H04N2201/0084
    • An imaging apparatus that can output images with a plurality of resolutions is provided. The imaging apparatus comprises an imaging section (101) for imaging a subject using an imaging device (103) to generate an image signal and a resolution conversion section (110) for converting a resolution of the image signal captured by the imaging section (101) and outputting it. The resolution conversion section (110) reduces the image inputted from the imaging section (101) to a plurality of images of different sizes and outputs an embedded image in which the size-reduced images of different sizes are embedded in the input image size from the imaging section (101). Thereby, images of a plurality of image sizes can be outputted at the same time.
    • 提供了可以输出具有多个分辨率的图像的成像装置。 成像装置包括:成像部件,用于使用成像装置对被摄体进行成像以产生图像信号;以及分辨率转换部分,用于转换由所述成像部分拍摄的图像信号的分辨率, 并输出。 分辨率转换部分(110)将从成像部分(101)输入的图像减少到不同大小的多个图像,并输出嵌入图像,其中嵌入了尺寸缩小的不同大小的图像的图像尺寸从 成像部(101)。 由此,可以同时输出多个图像尺寸的图像。
    • 7. 发明申请
    • Apparatus and method for inspecting film defect
    • 检查薄膜缺陷的装置和方法
    • US20060203246A1
    • 2006-09-14
    • US11359567
    • 2006-02-23
    • Takeshi NakajimaManabu HiguchiTakeshi Wakita
    • Takeshi NakajimaManabu HiguchiTakeshi Wakita
    • G01N21/84
    • G01N21/896
    • There is disclosed a defect inspection apparatus, wherein a light source projects a linear light onto a transparent film to inspect, so that a light receiver receives light beams transmitted through the film. The light receiver is placed to look down the film, with its optical axis inclined by a cross angle θ1 to a normal line that is perpendicular to the film surface, and the cross angle θ1 is set in a range from 30° to 50°. The optical axis of the light receiver is also turned about the normal line by a rotational angle θ2 to a transport direction (S) of the film. The rotational angle θ2 is set in a range from minus 60′ to plus 60′, on the assumption that the transport direction is zero degree.
    • 公开了一种缺陷检查装置,其中光源将线性光投射到透明膜上以进行检查,使得光接收器接收透过膜的光束。 光接收器被放置以向下看薄膜,其光轴倾斜十字角θ1到垂直于膜表面的法线,并且交角θ1设定在30°至50°的范围内。 光接收器的光轴也绕着法线转动到膜的输送方向(S)的旋转角θ2。 假定输送方向为零度,旋转角度θ2设定在从负60'至正60'的范围内。
    • 8. 发明授权
    • Imaging apparatus
    • 成像设备
    • US08264586B2
    • 2012-09-11
    • US12304373
    • 2007-03-09
    • Manabu Higuchi
    • Manabu Higuchi
    • H04N5/222H04N7/01H04N9/74G06K9/32G06K1/00G09G5/00
    • H04N5/2628G06T1/0007H04N1/0402H04N1/0405H04N1/0417H04N1/2112H04N2101/00H04N2201/0084
    • An imaging apparatus that can output images with a plurality of resolutions is provided. The imaging apparatus comprises an imaging section (101) for imaging a subject using an imaging device (103) to generate an image signal and a resolution conversion section (110) for converting a resolution of the image signal captured by the imaging section (101) and outputting it. The resolution conversion section (110) reduces the image inputted from the imaging section (101) to a plurality of images of different sizes and outputs an embedded image in which the size-reduced images of different sizes are embedded in the input image size from the imaging section (101). Thereby, images of a plurality of image sizes can be outputted at the same time.
    • 提供了可以输出具有多个分辨率的图像的成像装置。 成像装置包括:成像部件,用于使用成像装置对被摄体进行成像以产生图像信号;以及分辨率转换部分,用于转换由所述成像部分拍摄的图像信号的分辨率, 并输出。 分辨率转换部分(110)将从成像部分(101)输入的图像减少到不同大小的多个图像,并输出嵌入图像,其中嵌入了尺寸缩小的不同大小的图像的图像尺寸从 成像部(101)。 由此,可以同时输出多个图像尺寸的图像。
    • 10. 发明授权
    • Image forming method of pressing light-sensitive material on image
receiving material
    • 在感光材料上按压感光材料的成像方法
    • US5246811A
    • 1993-09-21
    • US822217
    • 1992-01-17
    • Manabu Higuchi
    • Manabu Higuchi
    • G03F7/004G03F7/00G03F7/028G03F7/06G03F7/26
    • G03F7/002G03F7/0285
    • An image forming method uses a light-sensitive material and an image receiving material. The light-sensitive material comprises a support and a light-sensitive layer provided thereon. The light-sensitive layer contains silver halide, a reducing agent, pigment particles, an ethylenically unsaturated polymerizable compound and a base precursor. The silver halide, the reducing agent, the pigment particles, the polymerizable compound and the base precursor are contained in microcapsules dispersed in the light-sensitive layer. The image forming method comprises imagewise exposing the light-sensitive material, developing the light-sensitive material to polymerize the polymerizable compound, and pressing the light-sensitive material on the image receiving material to transfer the pigment particles to the image receiving material. In the present invention, the light-sensitive material is pressed at a pressure in the range of 20 kg/cm.sup.2 to 500 kg/cm.sup.2 while heating the light-sensitive material at 30.degree. C. to 130.degree. C. The light-sensitive material and the image receiving material are usually pressed by rollers. At least one of the rollers facing the light-sensitive material preferably is a heated roller, and the light-sensitive material is heated by the heated roller. The diameters of the rollers are preferably in the range of 5 mm to 40 mm. The support of the light-sensitive material is preferably made of a polymer film. The thickness of the polymer film support is preferably in the range of 5 .mu.m to 50 .mu.m.
    • 图像形成方法使用感光材料和图像接收材料。 感光材料包括支撑体和设置在其上的感光层。 感光层包含卤化银,还原剂,颜料颗粒,烯键式不饱和可聚合化合物和碱前体。 卤化银,还原剂,颜料颗粒,可聚合化合物和碱性前体包含在分散在感光层中的微胶囊中。 图像形成方法包括成像曝光感光材料,显影感光材料以聚合可聚合化合物,并将感光材料压在图像接收材料上以将颜料颗粒转印到图像接收材料。 在本发明中,在30℃〜130℃下加热感光材料的同时,以20kg / cm 2〜500kg / cm 2的压力压制感光材料。感光材料 并且图像接收材料通常被辊压制。 面向感光材料的辊中的至少一个优选地是加热辊,并且感光材料被加热的辊加热。 辊的直径优选在5mm至40mm的范围内。 感光材料的支撑体优选由聚合物膜制成。 聚合物膜载体的厚度优选在5μm至50μm的范围内。