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    • 6. 发明授权
    • Method for fixation onto layer comprising amorphous carbon film, and laminate
    • 固定在包含无定形碳膜的层和层压板上的方法
    • US09132609B2
    • 2015-09-15
    • US13582731
    • 2011-03-03
    • Kunihiko ShibusawaTakeshi Sato
    • Kunihiko ShibusawaTakeshi Sato
    • B32B9/00B32B9/04C01B31/02C23C16/26B32B37/16
    • C23C16/26B32B9/04B32B37/16C01B32/05Y10T156/10Y10T428/30
    • A method for fixation, onto a layer comprising an amorphous carbon film and provided on a base material, of a layer comprising a material condensation-reacting with hydroxyl groups on a surface of the amorphous carbon film, whereby, in the layer comprising an amorphous carbon film and provided on the base material, the amorphous carbon film can have a holding power which is strong enough to fix the layer comprising a material condensation-reacting with a hydroxyl group on the surface of the amorphous carbon film and can have uniformity of the holding power. Si and O are added into the layer comprising an amorphous carbon film to thereby improve adhesion durability and binding uniformity of the layer comprising a material condensation-reacting with a hydroxyl group. Particularly, by using a fluorine-based silane coupling agent, it is possible to impart high functions such as water repellency/oil repellency, abrasion resistance, chemical resistance, low friction properties and non-tackiness to the amorphous carbon film.
    • 一种在包含无定形碳膜并在基材上提供的层上固定包含在非晶碳膜的表面上与羟基缩合反应的材料的层的方法,由此在包含无定形碳的层中 膜,并且设置在基材上,非晶碳膜可以具有足够强的保持力,以将包含与羟基缩合反应的材料的层固定在非晶碳膜的表面上,并且可以具有均匀的保持 功率。 将Si和O添加到包含无定形碳膜的层中,从而提高包含与羟基缩合反应的材料的层的粘合耐久性和粘合均匀性。 特别是通过使用氟系硅烷偶联剂,能够赋予无定形碳膜更高的功能性,例如防水性/拒油性,耐磨性,耐化学性,低摩擦性和非粘性。
    • 7. 发明授权
    • Image processing apparatus and computer program product
    • 图像处理装置和计算机程序产品
    • US09113811B2
    • 2015-08-25
    • US12464472
    • 2009-05-12
    • Takeshi Sato
    • Takeshi Sato
    • A61B8/00A61B8/06A61B8/13G06T19/00G06T15/08A61B8/08
    • A61B8/06A61B8/13A61B8/483G06T15/08G06T19/00G06T2210/24G06T2210/41
    • A tissue-image creating unit creates a tissue image including depth values by volume rendering from three-dimensional tissue data stored in a three-dimensional data storage unit. A blood-flow data converting unit scatters a blood flow in three-dimensional blood-flow data stored in the three-dimensional data storage unit into particles, and converts the three-dimensional blood-flow data into three-dimensional particle data. A blood-flow image creating unit creates a blood-flow image including depth values from the three-dimensional particle data. A composite-image creating unit then creates a composite image by coordinating the order of rendering particles and tissue based on the depth values of respective pixels included in the tissue image and the depth values of respective particles included in the blood-flow image. A display control unit then controls display of the composite image so as to be displayed in order onto a monitor included in an output unit.
    • 组织图像创建单元通过存储在三维数据存储单元中的三维组织数据通过体积绘制来创建包括深度值的组织图像。 血流数据转换单元将存储在三维数据存储单元中的三维血流数据中的血流散布为粒子,并将三维血流数据转换为三维粒子数据。 血流图像生成单元从三维粒子数据生成包含深度值的血流图像。 然后,复合图像生成单元根据组织图像中包含的各像素的深度值以及包含在血流图像中的各个粒子的深度值,通过协调渲染粒子和组织的顺序来生成合成图像。 显示控制单元然后控制合成图像的显示,以便依次显示在包括在输出单元中的监视器上。
    • 9. 发明授权
    • Ultrasonic diagnostic apparatus and ultrasonic diagnostic method
    • 超声诊断仪和超声诊断方法
    • US08932225B2
    • 2015-01-13
    • US11627667
    • 2007-01-26
    • Tetsuya KawagishiHiroyuki OhuchiTakeshi SatoMakoto HiramaTomohisa Imamura
    • Tetsuya KawagishiHiroyuki OhuchiTakeshi SatoMakoto HiramaTomohisa Imamura
    • A61B8/00A61B8/06A61B8/08G01S7/52G01S15/89
    • A61B8/463A61B8/06A61B8/481G01S7/52046G01S7/52074G01S15/8927G01S15/8952
    • An ultrasonic diagnostic apparatus comprises a first reception echo obtaining unit, a second reception echo obtaining unit, a reception echo combining unit, and an image generating unit. The first reception echo obtaining unit transmits a plurality of ultrasonic pulses having frequency spectra different from one another to an object, and obtains each of reception echoes corresponding to the plurality of ultrasonic pulses. The second reception echo obtaining unit transmits an ultrasonic pulse having the same frequency component characteristics as an combined pulse obtained by combining the plurality of ultrasonic pulses, and to obtain an reception echo. The reception echo combining unit combines the reception echoes obtained by the first reception echo obtaining unit and the reception echo obtained by the second reception echo obtaining unit to generate a combined signal. The image generating unit generates an image of echoes reflected from the object on the basis of the combined signal.
    • 超声波诊断装置包括第一接收回波获取单元,第二接收回波获取单元,接收回声合成单元和图像生成单元。 第一接收回波获取单元将具有彼此不同的频谱的多个超声波脉冲发送到对象,并且获得与多个超声波脉冲对应的每个接收回波。 第二接收回波获取单元发送具有与通过组合多个超声波脉冲而获得的组合脉冲相同的频率分量特性的超声波脉冲,并获得接收回波。 接收回声组合单元将由第一接收回声获得单元获得的接收回声与由第二接收回波获取单元获得的接收回波组合以产生组合信号。 图像生成单元基于合成信号生成从物体反射的回波的图像。