会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明申请
    • MEDICAL SUBSTITUTE MEMBRANE, USE THEREOF, AND METHOD FOR REPAIR OF MEMBRANE TISSUE IN LIVING BODY
    • 医用替代膜,其使用方法和生活体内膜组织修复方法
    • US20100098743A1
    • 2010-04-22
    • US12528103
    • 2008-02-21
    • Toshio NikaidoMotonori OkabeToshiko YoshidaShunro EndoNakamasa HayashiShigeru Saito
    • Toshio NikaidoMotonori OkabeToshiko YoshidaShunro EndoNakamasa HayashiShigeru Saito
    • A61K9/00A61K45/00A61P43/00
    • A61L27/3604
    • An object is to overcome the disadvantages of a conventional lyophilized amniotic membrane or the like which causes damages in a cell membrane or an amniotic membrane tissue and is therefore not suitable for use as a substitute membrane for a membrane tissue in a living body, and to provide a novel medical substitute membrane composed of a dried amniotic membrane, which can be used as a substitute membrane for a membrane tissue in a living body. The dried amniotic membrane is produced by drying a fresh amniotic membrane, which envelopes an embryo of an animal including human, and can be used as a substitute membrane for a membrane tissue in a living body; the dried amniotic membrane is dehydrated and dried so that the dried amniotic membrane can be stored in a dry air in a sterile state; when hydrated again by immersing in water or a buffer solution, the amniotic membrane still has an epithelial cell, a basement membrane and a connective tissue which constitute the fresh amniotic membrane. The dried amniotic membrane is useful as a medical substitute membrane for a membrane tissue in a living body such as a dura mater, a meninx, a pericardium, a pleura and a peritoneum.
    • 本发明的目的在于克服在细胞膜或羊膜组织中引起损伤的常规冻干羊膜等的缺点,因此不适合用作生物体中的膜组织的替代膜, 提供由干燥羊膜构成的新型医用替代膜,其可以用作活体中的膜组织的替代膜。 干燥的羊膜通过干燥包裹人的动物的胚胎的新鲜的羊膜来制造,可以用作生物体中的膜组织的替代膜; 将干燥的羊膜脱水干燥,使干燥的羊膜能够以无菌状态储存在干燥空气中; 当通过浸入水或缓冲溶液中再次水合时,羊膜仍具有构成新鲜羊膜的上皮细胞,基底膜和结缔组织。 干燥的羊膜可用作诸如硬脑膜,meninx,心包膜,胸膜和腹膜的活体中的膜组织的医用替代膜。
    • 4. 发明申请
    • BLOWBY GAS TREATMENT SYSTEM FOR MULTIPLE CYLINDER ENGINE
    • 多缸发动机的气体处理系统
    • US20090288649A1
    • 2009-11-26
    • US12468320
    • 2009-05-19
    • Hayato MatsudaShigeru Saito
    • Hayato MatsudaShigeru Saito
    • F02B25/06
    • F01M13/00F01M13/04F02M25/06Y02T10/121
    • In a blowby gas treatment system for a multiple cylinder engine, in which: a first cylinder and a second cylinder are provided to the engine; a first fuel supply device that always operates during operation of the engine is connected to the first cylinder; and a second fuel supply device that is capable of stopping an operation thereof during the operation of the engine is connected to the second cylinder, first and second branch pipes of an intake manifold are connected to the first and second cylinders, and a blowby gas outlet of a breather chamber and a blowby gas inlet opening into the first branch pipe communicate with each other via a breather pipe, the breather chamber collecting a blowby gas of the engine. Accordingly, when any of the cylinders is stopped, it is possible to easily prevent a blowby gas from flowing toward the stopped cylinder.
    • 在用于多缸发动机的窜气处理系统中,其中:向发动机提供第一气缸和第二气缸; 在发动机运转中始终运行的第一燃料供给装置连接到第一气缸; 并且能够在发动机运转期间停止其操作的第二燃料供给装置与第二气缸连接,进气歧管的第一和第二分支管连接到第一和第二气缸,并且排气口 通气室和通过第一分支管的窜气入口开口经由通气管彼此连通,通气室收集发动机的窜气。 因此,当任何气缸停止时,可以容易地防止窜气流向停止的气缸。
    • 5. 发明申请
    • BRAKE CONTROL APPARATUS
    • 制动控制装置
    • US20090127929A1
    • 2009-05-21
    • US12269903
    • 2008-11-13
    • Mototsugu SawadaShigeru Saito
    • Mototsugu SawadaShigeru Saito
    • B60T8/88
    • B60T8/90B60T8/1766B60T8/885B60T2270/406
    • A brake control apparatus includes a braking force applying apparatus for applying a braking force to each of a plurality of wheels adapted to a vehicle, a braking force testing device for testing the braking force of a predetermined malfunction test subject wheel by controlling the braking force applied thereto to be reduced or maintained for a predetermined time on the basis of a test actuation pattern while the braking force applied to each wheel is increased, a wheel speed detecting device for detecting a wheel speed of each of the plurality of the wheels including the malfunction test subject wheel, and a malfunction detecting device for detecting a malfunctioning state, in a case where changes of the wheel speed of the malfunction test subject wheel towards acceleration is not detected while the braking force testing device testing the braking force applied to the malfunction test subject wheel.
    • 制动控制装置包括:制动力施加装置,用于对适用于车辆的多个车轮中的每一个施加制动力;制动力测试装置,用于通过控制施加的制动力来测试预定故障测试对象轮的制动力 在施加到每个车轮的制动力增加的同时,基于测试致动模式减小或维持预定时间;车轮速度检测装置,用于检测包括故障的多个车轮中的每一个的车轮速度 测试对象轮和用于检测故障状态的故障检测装置,在制动力测试装置测试施加到故障测试的制动力的同时,在故障测试对象轮对加速度的车轮速度的变化未被检测的情况下 主题轮。
    • 6. 发明申请
    • GRAPH GENERATING METHOD, GRAPH GENERATING PROGRAM AND DATA MINING SYSTEM
    • 图形生成方法,图形生成程序和数据挖掘系统
    • US20070203870A1
    • 2007-08-30
    • US11459153
    • 2006-07-21
    • Shigeru Saito
    • Shigeru Saito
    • G06N7/02
    • G06F17/10
    • The invention has the object of obtaining, at a high rate of success, graphs indicating the relationships between variables indicating the states of observed items which are the subjects of data mining, and improving the reliability of the outputted graphs. A method for generating a graph showing the relationships between variables comprises a step S2 of establishing a number of graphs to be generated, a step S5 of randomly establishing an order of variables X forming the set of all variables V, a step S6 of performing a process of reconstructing a graph showing the relationships between variables, and a step S10 of outputting a comprehensive graph including all edges existing in any of the graphs generated with each graph generation. In the graph reconstruction process, an inverse matrix of the correlation coefficient matrix is calculated, and the operation of determining the conditional independence relating to two variables which are the subject of the conditional independence determination is skipped if any of the diagonal elements relating to the two variables is greater than a predetermined threshold value.
    • 本发明的目的是以高成功率获得指示数据挖掘对象的观察项目状态的变量之间的关系的图形,并提高输出图形的可靠性。 用于生成表示变量之间的关系的图形的方法包括建立要生成的图形数的步骤S2;随机地建立形成所有变量V的集合的变量X的阶数的步骤S 5,步骤S6 执行重建表示变量之间的关系的图表的过程,以及输出包括存在于利用每个图形生成生成的任何图表中的所有边缘的综合图形的步骤S10。 在图重建处理中,计算相关系数矩阵的逆矩阵,并且如果与两个对象相关的任何对角元素跳过,则跳过确定与条件独立性确定的对象的两个变量相关的条件独立性的操作 变量大于预定阈值。
    • 10. 发明授权
    • Line symmetrical figure shaping apparatus
    • 线对称图形成型装置
    • US5889892A
    • 1999-03-30
    • US865355
    • 1997-05-29
    • Shigeru Saito
    • Shigeru Saito
    • G06T7/60G06K9/00G06K9/52
    • G06K9/00476G06K9/52
    • A feature point calculating device 21 calculates feature points with a sequence of input coordinate points. A symmetrical axis alternative calculating device 22 references the feature points and calculates symmetrical axis alternatives. A first determination symmetrical axis determining device 23 extracts the most horizontal symmetrical axis alternative and the most vertical symmetrical axis alternative from the symmetrical axis alternatives calculated by the symmetrical axis alternative calculating device 22. A first symmetry input point set calculating device 24 calculates symmetry determination segments of one of the horizontal and vertical symmetrical axis alternatives. A first symmetrical axis distance calculating device 25 calculates the distance between the center point of each symmetry determination segment and the symmetrical axis alternative. A first symmetry determining device 26 calculates a deviation of the calculated distances. When the deviation does not exceed a predetermined threshold value, the first symmetry determining device 26 determines that the input figure is line symmetrical to the symmetrical axis alternative. A symmetrizing process device 27 compensates the input figure so that sets of input coordinate points calculated by the first symmetry input point set calculating device 24 become line symmetrical to the symmetrical axis alternative.
    • 特征点计算装置21使用输入坐标点的序列来计算特征点。 对称轴替代计算装置22参考特征点并计算对称轴替代。 第一确定对称轴确定装置23从对称轴替代计算装置22计算出的对称轴备选中提取最大水平对称轴替代和最垂直对称轴,第一对称输入点集计算装置24计算对称确定段 的一个水平和垂直对称轴替代。 第一对称轴距离计算装置25计算每个对称确定段的中心点和对称轴替代方案之间的距离。 第一对称性确定装置26计算计算出的距离的偏差。 当偏差不超过预定阈值时,第一对称性确定装置26确定输入图形对称于对称轴对称线。 对称处理装置27补偿输入图,使得由第一对称输入点集计算装置24计算的输入坐标点的集合变得与对称轴替代对称。