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1. 发明授权

US08532359B2 Biodata model preparation method and apparatus, data structure of biodata model and data storage device of biodata model, and load dispersion method and apparatus of 3D data model 有权
标题翻译：生物数据模型制备方法和装置，生物数据模型的生物数据模型和数据存储装置的数据结构，以及3D数据模型的负载分散方法和装置
公开(公告)号：US08532359B2
公开(公告)日：2013-09-10
申请号：US13003607
申请日：2009-07-10
申请人： Kentaro Takanami , Manabu Nagasaka , Hideo Sakamoto , Masato Ogata , Hideo Yokota , Hiroyuki Shimai
发明人： Kentaro Takanami , Manabu Nagasaka , Hideo Sakamoto , Masato Ogata , Hideo Yokota , Hiroyuki Shimai
IPC分类号： G06K9/00 , A61B6/00
CPC分类号： G06T7/11 , G01R33/4812 , G06F19/00 , G06T7/155 , G06T17/20 , G06T2200/08 , G06T2207/10081 , G06T2207/10088 , G06T2207/30004 , G09B23/30
摘要： Medical image data is utilized, physical values are assigned to body parts based on image information, and the target organs are separated from the image data to prepare a 3D biodata model to thereby realize a data model unique to a patient, having an internal structure, and enabling dynamic simulation of a live body. The same target part of a body is captured by CT and MRI to obtain medical images. Sets of pairs of CT images and MRI images are set, a plurality of features showing the same locations are selected and set from the sets of CT images and MRI images, a conversion coefficient between the CT images and MRI images is obtained, and this conversion coefficient is used to rearrange the MRI images by projection transforms and linear interpolation, combine them with the contours of the CT images, and correct their positions in the contours. Further, the images are used to prepare a 3D data model.
摘要翻译：利用医学图像数据，基于图像信息将物理值分配给身体部位，并且将目标器官与图像数据分离以制备3D生物数据模型，从而实现具有内部结构的患者独有的数据模型，并实现对活体的动态模拟。通过CT和MRI捕获身体的相同目标部分以获得医学图像。设置CT图像和MRI图像对，从CT图像和MRI图像组中选择并设置显示相同位置的多个特征，获得CT图像和MRI图像之间的转换系数，并且该转换系数用于通过投影变换和线性插值重新排列MRI图像，将其与CT图像的轮廓组合，并校正其在轮廓中的位置。此外，图像用于准备3D数据模型。

2. 发明申请

US20110150312A1 BIODATA MODEL PREPARATION METHOD AND APPARATUS, DATA STRUCTURE OF BIODATA MODEL AND DATA STORAGE DEVICE OF BIODATA MODEL, AND LOAD DISPERSION METHOD AND APPARATUS OF 3D DATA MODEL 有权
标题翻译： BIODATA模型制备方法和设备，BIODATA模型的数据结构和BIODATA模型的数据存储设备，以及负载分散方法和3D数据模型的设备
公开(公告)号：US20110150312A1
公开(公告)日：2011-06-23
申请号：US13003607
申请日：2009-07-10
申请人： Kentaro Takanami , Manabu Nagasaka , Hideo Sakamoto , Masato Ogata , Hideo Yokoto , Hiroyuki Shimai
发明人： Kentaro Takanami , Manabu Nagasaka , Hideo Sakamoto , Masato Ogata , Hideo Yokoto , Hiroyuki Shimai
IPC分类号： G06K9/00
CPC分类号： G06T7/11 , G01R33/4812 , G06F19/00 , G06T7/155 , G06T17/20 , G06T2200/08 , G06T2207/10081 , G06T2207/10088 , G06T2207/30004 , G09B23/30
摘要： Medical image data is utilized, physical values are assigned to body parts based on image information, and the target organs are separated from the image data to prepare a 3D biodata model to thereby realize a data model unique to a patient, having an internal structure, and enabling dynamic simulation of a live body. The same target part of a body is captured by CT and MRI to obtain medical images. Sets of pairs of CT images and MRI images are set, a plurality of features showing the same locations are selected and set from the sets of CT images and MRI images, a conversion coefficient between the CT images and MRI images is obtained, and this conversion coefficient is used to rearrange the MRI images by projection transforms and linear interpolation, combine them with the contours of the CT images, and correct their positions in the contours. Further, the images are used to prepare a 3D data model.
摘要翻译：利用医学图像数据，基于图像信息将物理值分配给身体部位，并且将目标器官与图像数据分离以制备3D生物数据模型，从而实现具有内部结构的患者独有的数据模型，并实现对活体的动态模拟。通过CT和MRI捕获身体的相同目标部分以获得医学图像。设置CT图像和MRI图像对，从CT图像和MRI图像组中选择并设置显示相同位置的多个特征，获得CT图像和MRI图像之间的转换系数，并且该转换系数用于通过投影变换和线性插值重新排列MRI图像，将其与CT图像的轮廓组合，并校正其在轮廓中的位置。此外，图像用于准备3D数据模型。

3. 发明授权

US09214095B2 Surgical simulation model generating method, surgical simulation method, and surgical simulator 有权
标题翻译：手术模拟生成方法，手术模拟方法和手术模拟器
公开(公告)号：US09214095B2
公开(公告)日：2015-12-15
申请号：US13376697
申请日：2010-06-04
申请人： Yoshinobu Kubota , Kazuhide Makiyama , Takaaki Kikukawa , Manabu Nagasaka , Hideo Sakamoto , Masato Ogata
发明人： Yoshinobu Kubota , Kazuhide Makiyama , Takaaki Kikukawa , Manabu Nagasaka , Hideo Sakamoto , Masato Ogata
IPC分类号： G09B23/28 , G06T17/20 , A61B19/00
CPC分类号： G06T7/204 , A61B2034/105 , G06F19/00 , G06K9/52 , G06K9/6201 , G06T7/0014 , G06T7/248 , G06T7/74 , G06T13/80 , G06T17/20 , G06T2207/30004 , G09B23/285
摘要： A surgical simulation model generating method includes: a first process in which a computing unit acquires geometrical information of an organ from a medical image stored in a storage unit, including an image of the organ, and generates volume data for the organ; a second process in which, after the first process, the computing unit forms nodal points by meshing the organ represented by the generated volume data; a third process in which the computing unit generates a simulated membrane that covers the organ represented by the volume data meshed in the second process; and a fourth process in which the computing unit generates a simulated organ by drawing an imaginary line so as to extend from each nodal point formed on a surface of the organ represented by the volume data meshed in the second process in a direction that intersects the simulated membrane and thereby forming a membrane nodal point at a point where the imaginary line intersects the simulated membrane generated in the third process, and by arranging on each imaginary line an imaginary inter-membrane spring that connects between the nodal point formed on the surface of the organ and the membrane nodal point, while also arranging an in-plane spring that connects between adjacent membrane nodal points on the simulated membrane.
摘要翻译：手术模拟模型生成方法包括：第一处理，其中计算单元从存储在存储单元中的医学图像获取器官的几何信息，包括器官的图像，并且生成器官的体积数据; 第二处理，其中，在第一处理之后，计算单元通过对由生成的卷数据表示的器官进行啮合而形成节点; 第三处理，其中所述计算单元生成覆盖由在所述第二处理中筛选的所述体数据表示的所述器官的模拟膜; 以及第四处理，其中所述计算单元通过绘制假想线来生成模拟器官，以从形成在所述器官的表面上的所述器官的表面延伸，所述节点由所述第二处理中的网格化的体数据表示在与所述模拟膜，从而在假想线与第三工艺中产生的模拟膜相交的点形成膜节点，并且通过在每个假想线上布置假想的膜间弹簧，其连接在形成在该表面上的节点之间器官和膜节点，同时还布置连接在模拟膜上的相邻膜节点之间的平面内弹簧。

4. 发明申请

US20120081367A1 SURGICAL SIMULATION MODEL GENERATING METHOD, SURGICAL SIMULATION METHOD, AND SURGICAL SIMULATOR 有权
标题翻译：外科模拟模型生成方法，手术模拟方法和手术模拟器
公开(公告)号：US20120081367A1
公开(公告)日：2012-04-05
申请号：US13376697
申请日：2010-06-04
申请人： Yoshinobu Kubota , Kazuhide Makiyama , Takaaki Kikukawa , Manabu Nagasaka , Hideo Sakamoto , Masato Ogata
发明人： Yoshinobu Kubota , Kazuhide Makiyama , Takaaki Kikukawa , Manabu Nagasaka , Hideo Sakamoto , Masato Ogata
IPC分类号： G06T15/00
CPC分类号： G06T7/204 , A61B2034/105 , G06F19/00 , G06K9/52 , G06K9/6201 , G06T7/0014 , G06T7/248 , G06T7/74 , G06T13/80 , G06T17/20 , G06T2207/30004 , G09B23/285
摘要： A surgical simulation model generating method includes: a first process in which a computing unit acquires geometrical information of an organ from a medical image stored in a storage unit, including an image of the organ, and generates volume data for the organ; a second process in which, after the first process, the computing unit forms nodal points by meshing the organ represented by the generated volume data; a third process in which the computing unit generates a simulated membrane that covers the organ represented by the volume data meshed in the second process; and a fourth process in which the computing unit generates a simulated organ by drawing an imaginary line so as to extend from each nodal point formed on a surface of the organ represented by the volume data meshed in the second process in a direction that intersects the simulated membrane and thereby forming a membrane nodal point at a point where the imaginary line intersects the simulated membrane generated in the third process, and by arranging on each imaginary line an imaginary inter-membrane spring that connects between the nodal point formed on the surface of the organ and the membrane nodal point, while also arranging an in-plane spring that connects between adjacent membrane nodal points on the simulated membrane.
摘要翻译：手术模拟模型生成方法包括：第一处理，其中计算单元从存储在存储单元中的医学图像获取器官的几何信息，包括器官的图像，并且生成器官的体积数据; 第二处理，其中，在第一处理之后，计算单元通过对由生成的卷数据表示的器官进行啮合而形成节点; 第三处理，其中所述计算单元生成覆盖由在所述第二处理中筛选的所述体数据表示的所述器官的模拟膜; 以及第四处理，其中所述计算单元通过绘制假想线来生成模拟器官，以从形成在所述器官的表面上的所述器官的表面延伸，所述节点由所述第二处理中的网格化的体数据表示在与所述模拟膜，从而在假想线与第三工艺中产生的模拟膜相交的点形成膜节点，并且通过在每个假想线上布置假想的膜间弹簧，其连接在形成在该表面上的节点之间器官和膜节点，同时还布置连接在模拟膜上的相邻膜节点之间的平面内弹簧。

5. 发明授权

US06586139B1 Alkaline battery without mercury and electronic apparatus powered thereby 失效
标题翻译：无汞的碱性电池和电子设备由此供电
公开(公告)号：US06586139B1
公开(公告)日：2003-07-01
申请号：US08476235
申请日：1995-06-07
申请人： Shunji Watanabe , Tsugio Sakai , Hideo Sakamoto
发明人： Shunji Watanabe , Tsugio Sakai , Hideo Sakamoto
IPC分类号： H01M618
CPC分类号： H01M6/045 , H01M4/06 , H01M4/42 , H01M4/62 , H01M4/628 , H01M4/66 , H01M6/06 , H01M10/26
摘要： An alkaline battery comprises a negative electrode having an active material comprised of mercuryless zinc powder containing a gelling agent. In one embodiment, the alkaline battery comprises a current collector having an outermost surface coated with a layer of zinc or a metal having a hydrogen overvoltage higher than that of zinc, and an electrolyte containing one or more compounds selected from the group consisting of an indium compound, lead oxide; a hydroxide of alkaline earth metal and a surfactant having polyethylene oxide. In another embodiment, the negative electrode active material contains one or more species of materials selected from the group consisting of an indium compound, lead oxide, a hydroxide of alkaline earth metal and a surfactant having polyethylene oxide, and a current collector having an outermost surface coated with a layer of zinc or a metal having a hydrogen overvoltage higher than that of zinc. An improved alkaline battery is achieved which does not pose environmental problems, and which corrosion of the zinc powder of the battery is suppressed, and in which a good discharge performance of the battery is maintained.
摘要翻译：碱性电池包括具有由含有胶凝剂的无汞锌粉末构成的活性物质的负极。在一个实施方案中，碱性电池包括具有涂覆有锌层或具有高于锌的氢过电压的金属的最外表面的集电器，以及含有一种或多种选自铟的化合物的电解质化合物，氧化铅; 碱土金属的氢氧化物和具有聚环氧乙烷的表面活性剂。在另一个实施方案中，负极活性物质包含选自铟化合物，氧化铅，碱土金属氢氧化物和具有聚环氧乙烷的表面活性剂中的一种或多种材料，以及具有最外表面的集电体涂覆有一层具有高于锌的氢过电压的锌或金属。实现了不会产生环境问题的改进的碱性电池，并且抑制了电池的锌粉的腐蚀，并且保持了电池的良好的放电性能。

6. 发明授权

US06252211B1 Method of joining metal pieces 失效
标题翻译：连接金属件的方法
公开(公告)号：US06252211B1
公开(公告)日：2001-06-26
申请号：US09351463
申请日：1999-07-12
申请人： Shigeru Isoyama , Takeshi Hirabayashi , Hideyuki Nikaido , Toshiaki Amagasa , Nozomu Tamura , Takahiro Yamasaki , Masashi Osada , Hirosuke Yamada , Toshisada Takechi , Norio Takashima , Junzo Nitta , Shuji Amanuma , Kanji Hayashi , Akio Kuroda , Yoshiki Mito , Kunio Miyamoto , Kazuo Morimoto , Ikuo Wakamoto , Kazuya Tsurusaki , Hideo Sakamoto , Michio Hashimoto , Hiroyuki Nakano , Toshinobu Eguchi , Fumihiro Maeda
发明人： Shigeru Isoyama , Takeshi Hirabayashi , Hideyuki Nikaido , Toshiaki Amagasa , Nozomu Tamura , Takahiro Yamasaki , Masashi Osada , Hirosuke Yamada , Toshisada Takechi , Norio Takashima , Junzo Nitta , Shuji Amanuma , Kanji Hayashi , Akio Kuroda , Yoshiki Mito , Kunio Miyamoto , Kazuo Morimoto , Ikuo Wakamoto , Kazuya Tsurusaki , Hideo Sakamoto , Michio Hashimoto , Hiroyuki Nakano , Toshinobu Eguchi , Fumihiro Maeda
IPC分类号： H05B610
CPC分类号： B21B15/0085 , B21B1/26 , B23K13/015 , B23K13/02 , B23K2101/18
摘要： A method and apparatus for joining metal pieces wherein the rear end of a preceding metal piece and a front end of a metal piece are heated and then pressed together prior to hot finished rolling. The temperature the ends of the metal pieces are heated to is a temperature range between the solidus and liquidus line temperatures of the metal(s) to be joined.
摘要翻译：一种接合金属片的方法和装置，其中先前金属片的后端和金属片的前端被加热，然后在热轧完成之前被压在一起。金属片的端部的温度被加热到要接合的金属的固相线和液相线的温度之间的温度范围。

7. 发明授权

US06248984B1 Method and apparatus for joining metal pieces 失效
标题翻译：用于连接金属片的方法和装置
公开(公告)号：US06248984B1
公开(公告)日：2001-06-19
申请号：US09351372
申请日：1999-07-12
申请人： Shigeru Isoyama , Takeshi Hirabayashi , Hideyuki Nikaido , Toshiaki Amagasa , Nozomu Tamura , Takahiro Yamasaki , Masashi Osada , Hirosuke Yamada , Toshisada Takechi , Norio Takashima , Junzo Nitta , Shuji Amanuma , Kanji Hayashi , Akio Kuroda , Yoshiki Mito , Kunio Miyamoto , Kazuo Morimoto , Ikuo Wakamoto , Kazuya Tsurusaki , Hideo Sakamoto , Michio Hashimoto , Hiroyuki Nakano , Toshinobu Eguchi , Fumihiro Maeda
发明人： Shigeru Isoyama , Takeshi Hirabayashi , Hideyuki Nikaido , Toshiaki Amagasa , Nozomu Tamura , Takahiro Yamasaki , Masashi Osada , Hirosuke Yamada , Toshisada Takechi , Norio Takashima , Junzo Nitta , Shuji Amanuma , Kanji Hayashi , Akio Kuroda , Yoshiki Mito , Kunio Miyamoto , Kazuo Morimoto , Ikuo Wakamoto , Kazuya Tsurusaki , Hideo Sakamoto , Michio Hashimoto , Hiroyuki Nakano , Toshinobu Eguchi , Fumihiro Maeda
IPC分类号： H05B606
CPC分类号： B21B15/0085 , B21B1/26 , B23K13/015 , B23K13/02 , B23K2101/18
摘要： According to the invention, the rear end of a preceding metal piece and a front end of a succeeding metal piece are heated, pressed and joined prior to the finishing hot rolling. An alternating magnetic field running through the metal pieces in the thickness direction thereof is generated in an end region on opposed faces of the respective metal pieces to perform heating. Another alternating magnetic field whose direction is reverse with respect to that of the former alternating magnetic field is partially generated in the end region on the opposed faces of the metal pieces and in either a region where the metal pieces exist or a region outside width ends of the metal pieces. This assures a uniform heating of the end region on the opposed faces of the metal pieces over their full width to reliably join the both metal pieces to each other.
摘要翻译：根据本发明，在精加工热轧之前，先前金属片的后端和后面的金属片的前端被加热，压制和接合。在各个金属片的相对面上的端部区域中产生沿其厚度方向穿过金属片的交变磁场，以进行加热。在金属片的相对面上的端部区域和金属片存在的区域或外侧宽度端部的区域中部分地产生相对于前者的交变磁场的方向相反的另一个交变磁场金属件。这确保了金属片的相对面上的端部区域在其全宽度上的均匀加热，以将两个金属片彼此可靠地接合。

8. 发明授权

US07626402B2 Semiconductor device and method of measuring sheet resistance of lower layer conductive pattern thereof 失效
标题翻译：半导体装置及其下层导电图案的薄层电阻测定方法
公开(公告)号：US07626402B2
公开(公告)日：2009-12-01
申请号：US11838252
申请日：2007-08-14
申请人： Hideo Sakamoto
发明人： Hideo Sakamoto
IPC分类号： G01R31/26
CPC分类号： H01L22/14 , H01L28/20 , H01L2924/0002 , H01L2924/00
摘要： Contact holes (openings) (17) are created in the upper electrode (14) and the dielectric film (15) of a polysilicon-insulator-polysilicon (PIP) capacitive element to form a plurality of evaluation patterns wherein the lower electrode (13) and upper layer wiring lines (20) for measurement are electrically connected through contacts (16). At least four evaluation patterns are created by a combination of two or more values of a distance L with different values of a width W. Since it can be assumed that a difference in the resistance value between the respective evaluation patterns is only due to the effect of a change in a rectangular region (W*L) between the contact holes (openings) (17), it is possible to easily calculate the sheet resistance of the high-resistance portion from a change in the resistance value of each of the measurement patterns.
摘要翻译：在多晶硅 - 绝缘体 - 多晶硅（PIP）电容元件的上电极（14）和电介质膜（15）中形成接触孔（开口）（17），以形成多个评估图案，其中下电极（13）并且用于测量的上层布线（20）通过触点（16）电连接。通过具有不同宽度W值的距离L的两个或更多个值的组合来创建至少四个评估模式。由于可以假设各个评估模式之间的电阻值的差异仅仅是由于效果在接触孔（开口）（17）之间的矩形区域（W * L）的变化，可以容易地从每个测量值的电阻值的变化计算高电阻部分的薄层电阻模式。

9. 发明授权

US5971584A Production control apparatus and a production control method 失效
标题翻译：生产控制装置和生产控制方法
公开(公告)号：US5971584A
公开(公告)日：1999-10-26
申请号：US919272
申请日：1997-08-28
申请人： Ken Iriuchijima , Mutsumi Fujihara , Hideo Sakamoto
发明人： Ken Iriuchijima , Mutsumi Fujihara , Hideo Sakamoto
IPC分类号： B23Q41/08 , B65G61/00 , G05B15/02 , G05B19/418 , G06F19/00 , G06Q10/00 , G06Q10/06 , G06Q50/00 , G06Q50/04
CPC分类号： G06Q50/04 , G05B19/41865 , G05B2219/32266 , Y02P90/20 , Y02P90/30
摘要： A production control is applied to control a production machine for producing a product from a material in a process divided into a plurality of steps. The execution numbers are counted on a per-step basis. A priority order is allocated on the basis of the counted execution numbers. The information relating to the priority order is output to the production machine. The production machine can select the next step in accordance with the input priority order. The execution numbers can be properly controlled by such control method on the per-step basis.
摘要翻译：应用生产控制来控制从被划分为多个步骤的过程中的材料制造产品的生产机器。执行次数按逐步计数。基于计数的执行次数分配优先顺序。与优先顺序有关的信息输出到生产机器。生产机器可以根据输入的优先级顺序选择下一步。可以通过这样的控制方法在每个步骤的基础上适当地控制执行次数。

10. 发明授权

US08484595B2 Semiconductor integrated circuit device, design method, design apparatus, and program 有权
标题翻译：半导体集成电路器件，设计方法，设计器件和程序
公开(公告)号：US08484595B2
公开(公告)日：2013-07-09
申请号：US13032379
申请日：2011-02-22
申请人： Hideo Sakamoto
发明人： Hideo Sakamoto
IPC分类号： G06F17/50 , H01L23/50
CPC分类号： G06F17/5063 , G06F2217/12 , H01L23/535 , H01L23/66 , H01L2223/6677 , H01L2924/0002 , Y02P90/265 , H01L2924/00
摘要： An antenna ratio calculation section extracts components from which two or more independent metal wires are coupled to one of diffusion layer regions based on layout data read from a layout data accumulation section, determines, for each of the components, the area of each of the two or more independent metal wires and electrodes coupled to the respective metal wires, determines an antenna ratio between the area of each of the metal wires and the area of the electrode coupled to the metal wire, and determines a moderation value for moderating a design standard associated with plasma charge damage related to one of the metal wires based on the ratio of the total area of all the metal wires coupled to the one of the diffusion layer regions to the area of the one of the metal wires.
摘要翻译：天线比率计算部根据从布局数据存储部读取的布局数据，提取两个以上的独立的金属线与扩散层区域中的一个耦合的部件，对于每个部件，为每个部件确定两个或多个独立的金属线和电极，耦合到相应的金属线，确定每个金属线的面积与耦合到金属线的电极的面积之间的天线比，并且确定调节设计标准相关联的调节值基于与所述一个扩散层区域耦合的所有金属线的总面积与所述金属线之一的面积的比率，与所述金属线之一相关的等离子体电荷损伤。

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