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    • 6. 发明授权
    • Image-processing apparatus and image-processing method
    • 图像处理装置和图像处理方法
    • US06631210B1
    • 2003-10-07
    • US09414736
    • 1999-10-08
    • Takeshi MutohSetsuya KobayashiTakayuki AmagaiSeiji KohashikawaTakahiro Daido
    • Takeshi MutohSetsuya KobayashiTakayuki AmagaiSeiji KohashikawaTakahiro Daido
    • G06K934
    • H04N1/56H04N1/40062
    • An image-processing apparatus, as well as an image-processing method, is provided with a first inspection circuit which, with respect to density values of pixels within a specific area consisting of a target pixel and pixels in a vicinity thereof in image data for each color component, calculates an average density value, the sum of density differences, that is, the sum of absolute values of differences between the target pixel and the peripheral pixels, and the number the peripheral pixels having the same density value as the target pixel, so that a judgement is made as to whether the target pixel is a maximum value or a minimum value, and also calculates a run-length and the degree of busy from the pixel forming the maximum value or the minimum value. Moreover, based on the run-length and the degree of busy, the second inspection circuit extracts a pixel weight switching signal for each of the color components, and detects the periodicity of meshes of image data by counting pixels not less than the standard value or not more than the standard value based on the pixel weight switching signal within a predetermined counting area. With this arrangement, it becomes possible to carry out the discrimination between character areas and mesh areas as well as the discrimination between black character areas and white character ares with high precision.
    • 图像处理装置以及图像处理方法具有:第一检查电路,对于由图像数据的图像数据中的目标像素和其附近的像素构成的特定区域内的像素的浓度值, 每个颜色分量计算平均密度值,密度差的和,即目标像素和周边像素之间的差的绝对值之和以及与目标像素具有相同密度值的周边像素的数量 ,从而判断目标像素是最大值还是最小值,并且还从形成最大值或最小值的像素计算游程长度和繁忙程度。 另外,根据游程长度和忙碌程度,第二检查电路提取每个颜色分量的像素权重切换信号,并且通过对不小于标准值的像素进行计数来检测图像数据的网格周期,或者 不超过预定计数区域内的像素权重切换信号的标准值。 利用这种布置,可以高精度地执行字符区域和网格区域之间的区分以及黑色字符区域和白色字符区分。
    • 9. 发明申请
    • NONAQUEOUS SECONDARY BATTERY SEPARATOR AND PROCESS FOR ITS FABRICATION
    • 非等级二次电池分离器及其制造工艺
    • US20100143783A1
    • 2010-06-10
    • US11996675
    • 2005-07-25
    • Satoshi NishikawaHiroyuki HonmotoTakahiro Daido
    • Satoshi NishikawaHiroyuki HonmotoTakahiro Daido
    • H01M2/14
    • B32B27/08B32B27/32B32B27/34B32B27/36B32B2255/10B32B2255/26B32B2255/28B32B2307/306B32B2307/724B32B2323/00B32B2377/00B32B2457/00B32B2457/10B32B2457/16B32B2605/00H01M2/145H01M2/1653H01M2/1686H01M10/0525H01M2300/0094
    • This invention provides a separator for a nonaqueous rechargeable battery comprising a composite porous membrane that has both a shutdown function and heat resistance good enough to be effective for the suppression of meltdown, desired in a high-performance nonaqueous rechargeable battery having increased energy density, increased output, and increased size, and can realize a separator for a nonaqueous rechargeable battery having excellent handling properties and ion permeability. The composite porous membrane comprises a polyolefin microporous membrane having an air permeability per thickness of not less than 15 sec/100 cc·μm and not more than 50 sec/100 cc·μm (JIS P 8117) and a membrane thickness of not less than 5 μm and not more than 25 μm and a porous layer formed of poly-m-phenylene isophthalamide covering and integrated with both sides of the polyolefin microporous membrane. The composite porous membrane is characterized in that the composite porous membrane has a thickness of not less than 6 μm and not more than 35 μm and an air permeability (JIS P 8117) of not less than 1.01 times and not more than 2.00 times that of the polyolefine microporous membrane, and the coverage of poly-m-phenylene isophthalamide is not less than 1.0 g/m2 and not more than 4.0 g/m2.
    • 本发明提供了一种用于非水可再充电电池的隔膜,其包括复合多孔膜,其具有足够好的关闭功能和耐热性,以有效地抑制熔化,在具有增加的能量密度的高性能非水可再充电电池中是期望的 输出和增加的尺寸,并且可以实现具有优异的处理性能和离子渗透性的非水可再充电电池的隔膜。 复合多孔膜由聚烯烃微多孔膜构成,其膜厚为15sec / 100cc·m以上50sec / 100cc·μm以下(JIS P8117),膜厚不小于 5μm以上且25μm以下,由聚 - 间苯二甲酰间苯二胺形成的多孔层与聚烯烃微多孔膜的两面覆盖并整合。 复合多孔膜的特征在于,复合多孔膜的厚度为6μm以上且35μm以下,透气度(JIS P 8117)为不小于1.01倍且不大于2.00倍 聚烯烃微孔膜和聚间苯二甲酰间苯二胺的覆盖率不小于1.0g / m 2且不大于4.0g / m 2。