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    • 1. 发明授权
    • Data filtering method
    • 数据过滤方法
    • US5007099A
    • 1991-04-09
    • US213133
    • 1988-06-29
    • Hitoshi MatsushimaTakafumi Miyatake
    • Hitoshi MatsushimaTakafumi Miyatake
    • G06T5/20
    • G06T5/20
    • In an image filtering system including an input device for inputting image data, a memory unit for storing an image data or the result derived by performing operation on the input image data, an arithmetic unit for performing operations between the image data inputted by the input device or between the input image data and the image data stored in the memory unit or between the image data stored in the memory unit, a loading unit for storing the results of the operation performed by the arithmetic unit in the memory, and an addressing device for designating the addresses of the memory in or from which the data is to be written or read out, an image filtering method in which a predetermined operation is performed 3(n-1) times on 2n inputs or input rows of the image data succeeding one another in a predetermined direction with a filter of a size n, to thereby determine (n+1) results or rows thereof.
    • 在包括用于输入图像数据的输入装置的图像滤波系统中,存储单元,用于存储图像数据或通过对输入图像数据执行操作导出的结果;运算单元,用于执行由输入装置输入的图像数据之间的操作 或者在输入图像数据和存储在存储器单元中的图像数据之间或存储在存储器单元中的图像数据之间,或者存储由存储器中的运算单元执行的操作的结果的加载单元,以及用于 指定要写入或读出数据的存储器的地址;图像滤波方法,其中对于第一个图像数据的2n个输入或输入行执行3(n-1)次的预定操作 另一个在具有大小为n的滤波器的预定方向上,从而确定(n + 1)个结果或行。
    • 2. 发明申请
    • Urine receiver and urine collection processing system implementing urine receiver
    • 尿液接收器和尿液收集处理系统实施尿液接收器
    • US20060015081A1
    • 2006-01-19
    • US11179778
    • 2005-07-13
    • Miou SuzukiIchiro WadaRyosuke MiyagawaYoshikazu IshitsukaNobuaki YoshiokaJunichi KobayashiShigeru Machida
    • Miou SuzukiIchiro WadaRyosuke MiyagawaYoshikazu IshitsukaNobuaki YoshiokaJunichi KobayashiShigeru Machida
    • A61F5/44
    • A61F5/451
    • A urine receiver which is sanitary, easy to attach, and furthermore, prevents urine leakage even when a wearer repeatedly changes positions is provided. A urine receiver 10 is implemented in a urine collection processing system wherein urine discharged from the wearer is suctioned into a urine tank via a urethral tube. The urine receiver 10 comprises, at the least: a liquid permeable, air-impermeable sheet 21 which is placed opposite of and covering the urethral meatus of the wearer; a leak-proof sheet 22 which is placed on the surface of the air-impermeable sheet 21 opposite to the urethral meatus and bonds to the outer border of the air-impermeable sheet 21; a suction part 26 which is provided between the air-impermeable sheet 21 and the leak-proof sheet 22 and to which the urethral tube 11 is connected; and a gathers part 16 for sealing the space between the air-impermeable sheet 21 and the wearer's skin surface which is provided on the outer border part of the air-impermeable sheet 21 on the urethral meatus side.
    • 提供卫生,容易附着的尿液接收器,此外,即使在佩戴者反复改变位置时也防止尿液泄漏。 尿液收集器10实施在尿液收集处理系统中,其中从穿戴者排出的尿液通过尿道管吸入尿液槽。 尿液接收器10至少包括:液体可渗透的不透气片材21,其被放置成与穿戴者的尿道口相对并覆盖; 防漏片22,其设置在与尿道口相反的不透气片材21的表面上,并且粘合到不透气片材21的外边界; 吸入部26,设置在不透气性片21和防漏片22之间,尿道管11与其连接; 以及用于密封不透气性片材21和穿戴者的皮肤表面之间的空间的褶皱部分16,其设置在尿道口侧的不透气片材21的外边界部分上。
    • 10. 发明授权
    • Test jig and test method
    • US12146816B2
    • 2024-11-19
    • US18023782
    • 2021-03-02
    • Hitachi, Ltd.
    • Yu HarubeppuHisashi TanieHiroshi Shintani
    • G01M7/06
    • G01M7/06
    • A vibration generation device which can vibrate in only one axial direction is used to simultaneously load a vibration force in a plurality of axial directions onto a test piece, and to make it possible to easily modify the proportion of vibration force in each axial direction. The present invention includes: a vibration generation device connection part 1 which is connected to the vibration generation device and is vibrated in a z-axis direction; a first diaphragm 2 which is connected to the vibration generation device connection part 1 and extends in cantilevered form in an x-axis direction intersecting the z-axis direction; a second diaphragm 3 which is connected to the vicinity of an end of the first diaphragm 2 in the x-axis direction, and which extends in cantilevered form in the z-axis direction and a y-axis direction intersecting the x-axis direction; and a test piece installation part 5 on which the test piece is installed and which receives vibrations via the first diaphragm 2 and the second diaphragm 3 from the vibration generation device connection part 1, wherein at least one of the first diaphragm 2 and the second diaphragm 3 has a length adjustment mechanism 6.