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    • 66. 发明申请
    • Perpendicular magnetic recording medium, method of manufacturing the same, and magnetic recording device
    • 垂直磁记录介质,其制造方法和磁记录装置
    • US20090086372A1
    • 2009-04-02
    • US12284913
    • 2008-09-26
    • Takayuki IchiharaMasayoshi Shimizu
    • Takayuki IchiharaMasayoshi Shimizu
    • G11B5/82G11B5/66B05D5/12G11B5/84
    • G11B5/66B82Y10/00G11B5/65G11B5/743G11B5/82G11B5/855
    • Embodiments of the present invention help to provide a discrete track medium for realizing a high track density in a low price by adopting a configuration, in which filling of a non-magnetic material into a guard band portion and smoothing processing of a medium surface are not required. According to one embodiment, a perpendicular magnetic recording medium, on the non-magnetic substrate, includes at least: a soft magnetic underlayer; a first recording layer including a crystal grain having a magnetic property and a non-magnetic grain boundary having an oxide, as a main component, surrounding the crystal grain; a second recording layer containing a ferromagnetic metal as a main component and not containing an oxide; and at least one non-magnetic layer provided between the first recording layer and the second recording layer. A recording track portion for magnetically recording information and a guard band portion provided between adjacent recording track portions are included in the perpendicular magnetic recording medium. The relationship between the total thickness t1 of the non-magnetic layer in the guard band portion and the total thickness t2 of the non-magnetic layer in the recording track portion is set as t1>t2.
    • 本发明的实施例有助于提供一种用于实现低价格的高轨道密度的离散轨道介质,其采用将非磁性材料填充到保护带部分和平滑处理介质表面的配置 需要。 根据一个实施例,非磁性衬底上的垂直磁记录介质至少包括:软磁性底层; 第一记录层,包括具有磁性的晶粒和具有氧化物的非磁性晶界作为主要成分的晶粒; 含有铁磁性金属作为主要成分并且不含有氧化物的第二记录层; 以及设置在第一记录层和第二记录层之间的至少一个非磁性层。 用于磁记录信息的记录磁道部分和设置在相邻记录磁道部分之间的保护带部分被包括在垂直磁记录介质中。 保护带部分中的非磁性层的总厚度t1与记录轨道部分中的非磁性层的总厚度t2之间的关系被设置为t1> t2。
    • 67. 发明授权
    • Image correction method, program, and apparatus
    • 图像校正方法,程序和装置
    • US07359100B2
    • 2008-04-15
    • US11372389
    • 2006-03-10
    • Masayoshi Shimizu
    • Masayoshi Shimizu
    • G03F3/00G03F3/10
    • G06T5/007G06T5/40H04N1/6077H04N9/735
    • An image correction method of this invention includes a step of identifying a first pixel that satisfies one of predetermined conditions as to a pixel level, which are set for each color component, among pixels included in a specific image; a step of identifying a second pixel that satisfies the plural aforementioned predetermined conditions as to the pixel level, which are set for each color component, among pixels included in the specific image; a step of calculating an evaluation value relating to a duplication degree of the first pixel and the second pixel; and a correction step of correcting the specific image based on the evaluation value. As a result, it becomes possible to avoid a wrong correction for an object having the chromatic color, and an appropriate image correction is carried out.
    • 本发明的图像校正方法包括以下步骤:在包括在特定图像中的像素中,识别满足针对每个颜色分量设置的像素级的预定条件之一的第一像素; 在包括在特定图像中的像素之中,识别满足针对每个颜色分量设置的像素级的多个上述预定条件的第二像素的步骤; 计算与第一像素和第二像素的复制度相关的评估值的步骤; 以及基于评估值校正特定图像的校正步骤。 结果,可以避免对具有彩色的对象的错误校正,并且执行适当的图像校正。
    • 68. 发明申请
    • Color correction method, color correction device, and color correction program
    • 颜色校正方法,颜色校正装置和颜色校正程序
    • US20070216812A1
    • 2007-09-20
    • US11498015
    • 2006-08-03
    • Masayoshi Shimizu
    • Masayoshi Shimizu
    • G09G5/02H04N5/00
    • H04N1/60H04N1/6005H04N1/6008
    • A color correction method, a color correction device, and a color correction program that can achieve color correction processing with a color table with a fine spacing, while preventing the increase in memory capacity.A signal (YCC signal) of a luminance—color difference system is subjected to matrix conversion with a matrix conversion unit 10 and converted into a signal (RGB signal) of a display signal system. The adjustment amount relating to the signal of the display signal system is stored in a RGB color adjustment LUT 20. An interpolation processing unit 20 conducts interpolation processing by referring to the RGB color adjustment LUT 20 and outputs the color-corrected RGB signal after correction.
    • 颜色校正方法,颜色校正装置和颜色校正程序,其可以在防止存储容量增加的同时,利用具有精细间隔的色彩表来实现色彩校正处理。 亮度色差系统的信号(YCC信号)用矩阵转换单元10进行矩阵转换并转换成显示信号系统的信号(RGB信号)。 与显示信号系统的信号相关的调整量存储在RGB颜色调整LUT 20中。 内插处理单元20通过参照RGB颜色调整LUT20进行插值处理,并在校正后输出经色彩校正的RGB信号。
    • 69. 发明授权
    • Color data conversion method, color data conversion apparatus, storage medium, device driver and color conversion table
    • 彩色数据转换方法,彩色数据转换装置,存储介质,设备驱动程序和颜色转换表
    • US07167277B2
    • 2007-01-23
    • US10602642
    • 2003-06-25
    • Masayoshi ShimizuMasahiro MoriShoji SuzukiSatoshi Semba
    • Masayoshi ShimizuMasahiro MoriShoji SuzukiSatoshi Semba
    • G06F15/00G03F3/08G06K9/00
    • H04N1/6058
    • When an L*a*b* value of a certain color is outside a target color gamut to be converted, it is judged whether the L*a*b* value is located within the range of the color gamut set under a predetermined condition. This set range is a range in which the accuracy is degraded if colors are converted using only a first method, for example, a range in the neighborhood of the color gamut. If a color to be converted is located within the range, colors are converted using a second method. If the L*a*b* value of the color to be converted is outside of the set range, it is converted using the first method until the conversion result is contained within the range Then, the occurrence of both a problem which the first conversion method has for colors in the neighborhood of the color gamut when colors are converted and a problem which the second method has in the conversion of a color far from the color gamut can be suppressed.
    • 当特定颜色的L * a * b *值在要转换的目标色域之外时,判断L * a * b *值是否位于在预定条件下设定的色域的范围内。 该设定范围是如果仅使用第一种方法(例如,色域附近的范围)转换颜色,则精度降低的范围。 如果要转换的颜色位于该范围内,则使用第二种方法转换颜色。 如果要转换的颜色的L * a * b *值超出设定范围,则使用第一种方法转换,直到转换结果包含在该范围内。然后,出现第一次转换的问题 可以抑制颜色转换时的色域附近的颜色,并且可以抑制第二种方法在颜色远离色域的转换中的问题。