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    • 1. 发明申请
    • Inkjet recording device and inkjet recording method
    • 喷墨记录装置和喷墨记录方法
    • US20050140712A1
    • 2005-06-30
    • US11006686
    • 2004-12-08
    • Masaki KondoYasunari YoshidaMasashi Ueda
    • Masaki KondoYasunari YoshidaMasashi Ueda
    • B41J2/01B41J2/205B41J2/21B41J29/38
    • B41J2/2121
    • An inkjet recording device records images by forming dots on a recording medium with droplet modulating method. The inkjet recording device includes a recording unit, a multilevel-data creating portion, and a dot-layout-data creating portion. The recording unit ejects ink droplets for forming dots at corresponding pixel positions. The recording unit is capable of changing a volume of each ink droplet to form dots with different sizes. The multilevel-data creating portion creates multilevel data based on image data. The multilevel data includes a dot size for each dot. The dot-layout-data creating portion creating dot layout data based on the multilevel data, so as to prevent the recording unit from forming dots having the same size continuously by greater than or equal to a predetermined number. The recording unit performs recording operation based on the dot layout data.
    • 喷墨记录装置通过用液滴调制方法在记录介质上形成点来记录图像。 喷墨记录装置包括记录单元,多级数据创建部分和点布局数据创建部分。 记录单元喷射墨滴以在相应的像素位置形成点。 记录单元能够改变每个墨滴的体积以形成具有不同尺寸的点。 多级数据创建部分基于图像数据创建多级数据。 多级数据包括每个点的点大小。 点阵布局数据创建部分基于多级数据创建点布局数据,以防止记录单元连续形成具有大于或等于预定数量的相同尺寸的点。 记录单元基于点布局数据执行记录操作。
    • 2. 发明授权
    • Image-forming method
    • 成像方法
    • US07894096B2
    • 2011-02-22
    • US11094426
    • 2005-03-31
    • Masaki KondoMasashi UedaYasunari Yoshida
    • Masaki KondoMasashi UedaYasunari Yoshida
    • G06K15/02H04N1/04
    • H04N1/0411H04N1/0402H04N1/0455H04N1/12H04N1/128H04N1/1912H04N2201/0458H04N2201/0468
    • In an image-forming method, a device reads line data L for one line and determines whether the resolution of the line data L in the main scanning direction is greater than or equal to a threshold th. If the resolution is greater than or equal to the threshold th, then a multiple line process is performed on the line data L to divide this data into two sets of partial line data L1 and L2. The partial line data L1 and L2 are used to form two lines at locations shifted from each other in the sub-scanning direction. However, if the resolution of the line data L is smaller than the threshold th, then a single line process is performed to divide the line data L into two segments Q1 and Q2. The segments Q1 and Q2 of the line data L are used to form a single line at the same location in the sub-scanning direction by printing the segment Q1 in the first main scanning operation and by printing the segment Q2 in the second main scanning operation.
    • 在图像形成方法中,设备读取一行的行数据L,并确定主扫描方向上的行数据L的分辨率是否大于或等于阈值th。 如果分辨率大于或等于阈值th,则对行数据L执行多行处理,以将该数据划分为两组局部行数据L1和L2。 部分线数据L1和L2用于在副扫描方向上彼此偏移的位置处形成两条线。 然而,如果行数据L的分辨率小于阈值th,则执行单行处理以将行数据L划分成两个段Q1和Q2。 线数据L的区段Q1和Q2用于通过在第一主扫描操作中打印区段Q1并且在第二主扫描操作中打印区段Q2在副扫描方向上的相同位置处形成单行 。
    • 3. 发明授权
    • Color compression apparatus and color compression method
    • 彩色压缩装置和色彩压缩方法
    • US07421117B2
    • 2008-09-02
    • US10671509
    • 2003-09-29
    • Masaki KondoYasunari YoshidaMasashi Ueda
    • Masaki KondoYasunari YoshidaMasashi Ueda
    • G06K9/00
    • H04N1/6075H04N1/6058
    • According to a hue conversion, hue angles of C, M, and Y are always set to hue angles HC, HM, and HY of C, M, and Y of a printer, hue angles of R and G are always set to hue angles HR and HG of R and G of a monitor, and the hue angle of B is always set to a value HB desired by a user. The gradation from black through a full color to white is made linear in each color of R, G, B, C, M, and Y according to the hue conversion. The user sets the hue angle HB for B. Therefore, the user can obtain blue color B which provides the user's favorite hue and gradation. Every hue can be reproduced excellently and gradations can be reproduced without color shifts.
    • 根据色调转换,C,M和Y的色调角度总是设置为打印机的C,M和Y的色调角HC,HM和HY,R和G的色调角度始终设置为色相角 监视器的R和G的HR和HG,并且B的色调角度总是被设置为用户期望的值HB。 根据色调转换,从R,G,B,C,M和Y的每个颜色,将从黑色到全色到白色的灰度线性化。 用户将色调角度HB设置为B.因此,用户可以获得提供用户喜爱的色相和灰度的蓝色B。 每个色调都可以很好地再现,并且可以在没有色彩转换的情况下再现色彩。
    • 4. 发明申请
    • Image-forming method
    • 成像方法
    • US20050219650A1
    • 2005-10-06
    • US11094426
    • 2005-03-31
    • Masaki KondoMasashi UedaYasunari Yoshida
    • Masaki KondoMasashi UedaYasunari Yoshida
    • B41J2/01H04N1/04H04N1/12H04N1/191H04N7/08
    • H04N1/0411H04N1/0402H04N1/0455H04N1/12H04N1/128H04N1/1912H04N2201/0458H04N2201/0468
    • In an image-forming method, a device reads line data L for one line and determines whether the resolution of the line data L in the main scanning direction is greater than or equal to a threshold th. If the resolution is greater than or equal to the threshold th, then a multiple line process is performed on the line data L to divide this data into two sets of partial line data L1 and L2. The partial line data 'L1 and L2 are used to form two lines at locations shifted from each other in the sub-scanning direction. However, if the resolution of the line data L is smaller than the threshold th, then a single line process is performed to divide the line data L into two segments Q1 and Q2. The segments Q1 and Q2 of the line data L are used to form a single line at the same location in the sub-scanning direction by printing the segment Q1 in the first main scanning operation and by printing the segment Q2 in the second main scanning operation.
    • 在图像形成方法中,设备读取一行的行数据L,并确定主扫描方向上的行数据L的分辨率是否大于或等于阈值th。 如果分辨率大于或等于阈值th,则对行数据L执行多行处理,以将该数据分成两组局部行数据L 1和L 2。 部分线数据“L 1”和“L 2”用于在副扫描方向上彼此偏移的位置处形成两条线。 然而,如果线数据L的分辨率小于阈值th,则执行单线处理以将线数据L划分成两个片段Q 1和Q 2。 线数据L的分段Q 1和Q 2用于在副扫描方向上的相同位置处形成单行,通过在第一主扫描操作中打印分段Q 1并通过在第一主扫描操作中打印分段Q 2 第二次主扫描操作。
    • 5. 发明授权
    • Color-converting apparatus
    • 彩色转换装置
    • US07239745B2
    • 2007-07-03
    • US10671695
    • 2003-09-29
    • Masaki KondoYasunari YoshidaMasashi Ueda
    • Masaki KondoYasunari YoshidaMasashi Ueda
    • G06K9/00
    • H04N1/6008H04N1/603H04N1/6058H04N1/62
    • Input image data (255, 100, 50) is first converted into output image data (240, 110, 40) based on the color conversion properties of the input end device and the output device, and is subsequently converted into final output image data (255, 115, 40). The latter conversion satisfies the relationship of (240−40):(110−40)=(255−40):(115−40). By changing the highest-gradation-level color in the output image data into the maximum gradation value (255), the complementary color component is made zero in the output results of the output device, thereby reducing granularity Since the middle-gradation-level color is corrected, variations in color hue are reduced.
    • 输入图像数据(255,100,50)首先基于输入端设备和输出设备的颜色转换特性转换成输出图像数据(240,110,40),并随后被转换为最终输出图像数据 255,115,40)。 后一转换满足(240-40):(110-40)=(255-40):(115-40)的关系。 通过将输出图像数据中的最高灰度级颜色改变为最大灰度值(255),输出装置的输出结果中的互补色成分为零,从而减小粒度由于中等灰度级颜色 被校正,色调的变化减小。
    • 6. 发明授权
    • Inkjet recording device and inkjet recording method
    • 喷墨记录装置和喷墨记录方法
    • US07367156B2
    • 2008-05-06
    • US11006686
    • 2004-12-08
    • Masaki KondoYasunari YoshidaMasashi Ueda
    • Masaki KondoYasunari YoshidaMasashi Ueda
    • B41J2/205
    • B41J2/2121
    • An inkjet recording device records images by forming dots on a recording medium with droplet modulating method. The inkjet recording device includes a recording unit, a multilevel-data creating portion, and a dot-layout-data creating portion. The recording unit ejects ink droplets for forming dots at corresponding pixel positions. The recording unit is capable of changing a volume of each ink droplet to form dots with different sizes. The multilevel-data creating portion creates multilevel data based on image data. The multilevel data includes a dot size for each dot. The dot-layout-data creating portion creating dot layout data based on the multilevel data, so as to prevent the recording unit from forming dots having the same size continuously by greater than or equal to a predetermined number. The recording unit performs recording operation based on the dot layout data.
    • 喷墨记录装置通过用液滴调制方法在记录介质上形成点来记录图像。 喷墨记录装置包括记录单元,多级数据创建部分和点布局数据创建部分。 记录单元喷射墨滴以在相应的像素位置形成点。 记录单元能够改变每个墨滴的体积以形成具有不同尺寸的点。 多级数据创建部分基于图像数据创建多级数据。 多级数据包括每个点的点大小。 点阵布局数据创建部分基于多级数据创建点布局数据,以防止记录单元连续形成具有大于或等于预定数量的相同尺寸的点。 记录单元基于点布局数据执行记录操作。
    • 10. 发明授权
    • Colorimetric-data correcting method
    • 比色数据校正方法
    • US07773252B2
    • 2010-08-10
    • US10892409
    • 2004-07-16
    • Yasunari YoshidaMasaki Kondo
    • Yasunari YoshidaMasaki Kondo
    • G06F15/00G06K1/00H04N1/60G06K15/00H04N1/40
    • H04N1/6033
    • Colorimetric data corresponding to corner grid points in an RGB color space, such as grid point P1, is used without correction. For grid points positioned on an edge, such as grid point P2, an average value is calculated for calorimetric data corresponding to a total of three grid points, including a target grid point and two adjacent grid points on the edge. For grid points positioned on a surface, such as grid point P4, an average value is calculated for calorimetric data corresponding to a total of nine grid points, including the target grid point and eight adjacent grid points on the surface. For grid points positioned inside the cube-shaped grid, such as grid point P5, an average value is calculated for calorimetric data corresponding to a total of 27 grid points, including the target grid point and 26 grid points adjacent to the target grid point three-dimensionally.
    • 使用与RGB颜色空间中的角格点相对应的比色数据,例如网格点P1,而不进行校正。 对于位于边缘(例如网格点P2)的网格点,计算对应于总共三个网格点(包括边缘上的目标网格点和两个相邻网格点)的量热数据的平均值。 对于位于表面上的网格点(例如网格点P4),计算对应于总共九个网格点(包括目标网格点和表面上的八个相邻网格点)的量热数据的平均值。 对于位于立方体网格内的网格点(例如网格点P5),计算对应于总共27个网格点的量热数据的平均值,包括目标网格点和与目标网格点3相邻的26个网格点 维度。