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    • 3. 发明申请
    • ADVANCED MEDICAL IMAGE PROCESSING WIZARD
    • 高级医疗图像处理向导
    • US20150089365A1
    • 2015-03-26
    • US14495701
    • 2014-09-24
    • Tiecheng ZhaoAkio IwaseNobuyuki Kihara
    • Tiecheng ZhaoAkio IwaseNobuyuki Kihara
    • G06F3/0484A61B19/00
    • G06F3/04847A61B34/10G06F19/00G06F19/321G16H30/20
    • An automatic medical image processing system includes a series of operation stages, each automating specifying the image processing parameters for processing medical images. In response to an image processing indicator, a first medical image is automatically identified, including determining a first image operation and image processing parameters, without user intervention. The first image operation is performed on the first medical image based on the image processing parameters. A second medical image is generated and transmitted to the client device to be presented therein. The client device displays a message prompting the user whether the user is satisfied with the second medical image. In response to a user input from the client device indicating that the user is unsatisfied with the second medical image, one or more remedial options are presented to allow the user selecting a remedial action to reprocess the first medical image.
    • 自动医学图像处理系统包括一系列操作阶段,每个操作阶段每个自动化指定用于处理医学图像的图像处理参数。 响应于图像处理指示器,自动识别第一医疗图像,包括确定第一图像操作和图像处理参数,而无需用户干预。 基于图像处理参数对第一医疗图像执行第一图像操作。 生成第二医疗图像并将其发送到客户端设备以呈现在其中。 客户端设备显示提示用户用户对第二医疗图像是否满意的消息。 响应于来自客户设备的用户输入指示用户不满足第二医疗图像,呈现一个或多个补救选项以允许用户选择补救动作来重新处理第一医疗图像。
    • 4. 发明授权
    • Honeycomb structure body having hexagonal cells and manufacturing method thereof
    • 具有六角形电池的蜂窝结构体及其制造方法
    • US07842369B2
    • 2010-11-30
    • US11523742
    • 2006-09-20
    • Fumiya SugiuraAkio Iwase
    • Fumiya SugiuraAkio Iwase
    • B32B3/12
    • C04B38/0009B28B3/269B28B7/346Y10T428/24149Y10T428/24165
    • A honeycomb structure body has a plurality of hexagonal cells of a hexagonal shape formed in a lattice arrangement. Each hexagonal cell is surrounded by its hexagonal cell wall composed of six sides. On a cross-sectional surface along the axis direction of the ceramic honeycomb structure body, each side in the six sides forming the hexagonal cell wall surrounding the corresponding hexagonal cell is a concave shape toward either the inside of or the outside of the hexagonal cell. In particular, it is preferred that continuous three sides in each hexagonal cell wall has a concave shape that is concave toward either the inside or the outside of the hexagonal cell, and the remaining continuous three sides in the cell wall has a concave shape that is concave toward the opposite direction to the direction of the concave shape formed by the above continuous three sides.
    • 蜂窝结构体具有形成为格子状的六角形状的多个六边形单元。 每个六角形单元被其六边形的六边形细胞壁包围。 在陶瓷蜂窝结构体的轴线方向的截面上,形成围绕着对应的六边形单元的六边形细胞壁的六边的每一侧朝向六边形单元的内部或外侧呈凹形。 特别地,优选的是,六边形细胞壁中的连续的三个侧面具有朝向六边形单元的内部或外部凹入的凹形,并且细胞壁中的剩余连续的三侧具有凹形, 朝向与上述连续三面形成的凹形方向相反的方向凹。
    • 7. 发明申请
    • Stacked piezoelectric element, production method thereof and electrically conducting adhesive
    • 堆叠压电元件,其制造方法和导电粘合剂
    • US20060043841A1
    • 2006-03-02
    • US11212563
    • 2005-08-29
    • Shige KadotaniAkio Iwase
    • Shige KadotaniAkio Iwase
    • H01L41/083
    • H01L41/0472H01L41/0477H01L41/0833H01L41/293
    • An object of the present invention is to provide a stacked piezoelectric element with excellent reliability and durability, a production method thereof and an electrically conducting adhesive. A stacked piezoelectric element comprising a ceramic stack obtained by alternately stacking a piezoelectric layer comprising a piezoelectric material and an internal electrode layer having electrical conductivity, and an electrically conducting adhesive layer provided to allow for electrical conduction to said internal electrode layer of the same polarity on the side surface of said ceramic stack, wherein said electrically conducting adhesive layer comprises a base resin having dispersed therein an electrically conducting filler and microparticles, and the boundary between said microparticle and said base resin is in a state that a void is formed at least in a part between those two members or in a state that when said base resin is elongated, a void can be formed between those two members.
    • 本发明的目的是提供一种具有优异的可靠性和耐久性的堆叠式压电元件及其制造方法和导电粘合剂。 一种堆叠式压电元件,包括通过交替堆叠包括压电材料的压电层和具有导电性的内部电极层而获得的陶瓷叠层,以及导电粘合剂层,其设置成允许对所述内部电极层的导电具有相同的极性 所述陶瓷堆叠的侧表面,其中所述导电粘合剂层包括其中分散有导电填料和微粒的基础树脂,并且所述微粒和所述基础树脂之间的边界处于至少形成空隙的状态 这两个构件之间的部分或者当所述基础树脂伸长时,可以在这两个构件之间形成空隙。
    • 8. 发明授权
    • Stacked ceramic body and production method thereof
    • 堆叠陶瓷体及其制造方法
    • US06805763B2
    • 2004-10-19
    • US10781814
    • 2004-02-20
    • Akio IwaseYukihisa TakeuchiTetuji Ito
    • Akio IwaseYukihisa TakeuchiTetuji Ito
    • B32B3126
    • H01L41/273H01G4/30H01L41/0833
    • This invention provides a stacked ceramic body in which de-lamination (inter-layer peeling) does not easily occur, and a production method thereof. In the invention, a predetermined number of unit layers 151 and 152 each including a ceramic layer 111 112, an internal electrode layer 121, 122, a spacer 131, 132 having substantially the same thickness as the internal electrode layer 121, 122 and adhesive layers 14 stacked on the surface of the internal electrode layer and on the surface of the adhesive layer are stacked. A print portion for the internal electrode layer 121, 122 and a print portion for the spacer 131, 132 are formed on a green sheet for the ceramic layer 111, 112, and print portions for the adhesive layer 14 are formed on both of them to give an unsintered unit. The unsintered units are stacked to give an unsintered stacked body, are press-bonded and are then sintered.
    • 本发明提供一种其中不容易发生去层压(层间剥离)的层叠陶瓷体及其制造方法。 在本发明中,预定数量的单元层151和152分别包括具有与内部电极层121,122基本相同厚度的陶瓷层111 112,内部电极层121,122,间隔物131,132和粘合剂层 堆叠在内部电极层的表面上并且在粘合剂层的表面上堆叠。 在用于陶瓷层111,112的生片上形成有用于内部电极层121,122的印刷部分和用于间隔物131,132的印刷部分,并且在两者之间形成用于粘合剂层14的印刷部分至 给出未烧结的单元。 将未烧结的单元堆叠以得到未烧结的层叠体,然后进行压接,然后烧结。