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    • 2. 发明授权
    • Method and device for interconnection of two tubular organs
    • 两个管状器官相互连接的方法和装置
    • US08545524B2
    • 2013-10-01
    • US10522815
    • 2003-07-25
    • Sumit RoyErik FosseOle Jakob Elle
    • Sumit RoyErik FosseOle Jakob Elle
    • A61B17/11
    • A61F2/064A61B17/0644A61B17/11A61F2002/061A61F2002/821
    • A method for interconnection of two tubular organs via an opening at one end of an end portion of a first organ and an aperture in a side wall of a second organ. The end portion is initially passed through a first passage of a first element until the end portion projects past an end edge of the element, whereupon the end portion is everted round the end edge. Gripping parts of a second element with a second passage are then inserted in the second organ via the aperture. Finally, the first element with the everted portion of the first organ is inserted in the second passage, whereby the gripping parts are influenced in such a manner that they come into engagement with the inside of an edge portion of the aperture. A device for implementation of the method.
    • 一种用于经由第一器官的端部的一端处的开口和第二器官的侧壁中的孔的两个管状器官互连的方法。 端部最初通过第一元件的第一通道,直到端部突出超过元件的端边缘,于是端部围绕端部边缘。 然后通过孔将具有第二通道的第二元件的夹持部件插入第二器官。 最后,将具有第一器官的转弯部分的第一元件插入第二通道中,由此夹持部件以与孔的边缘部分的内侧接合的方式受到影响。 一种实现该方法的设备。
    • 3. 发明授权
    • Support device for endoscopic suturless anastomosis
    • 支持内窥镜无肛门吻合装置
    • US06743243B1
    • 2004-06-01
    • US09623496
    • 2000-11-20
    • Sumit RoyErik Fosse
    • Sumit RoyErik Fosse
    • A61B1711
    • A61B17/11A61B17/1114A61B2017/1135A61B2017/1139
    • A support device for endoscopic suturless anastomosis between tubular organs include at least a first tubular member provided with a longitudinal slit which permits introduction of the organs to be anastomosed in the device and additional second tubular members in physical continuity with the first tubular member through an opening on the first tubular member. The size of the opening is substantially equal to the luminal area of the second member. The inner and outer diameters of any radial cross section of the second members are constant along its length. The device allows apposition of the two tubular organs to be anastomosed in a variety of spatial patterns and their fixation to each other without sutures or clips, either manually or via remote control, and the creation of luminal continuity between them.
    • 用于管状器官之间的内窥镜无痛吻合的支撑装置包括至少第一管状构件,其设置有纵向狭缝,所述第一管状构件允许将待吻合的器官引入装置中,并且附加的第二管状构件与第一管状构件物理连续地通过开口 在第一管状构件上。 开口的尺寸基本上等于第二构件的管腔面积。 第二构件的任何径向横截面的内径和外径沿其长度是恒定的。 该装置允许两个管状器官的并置以各种空间图案吻合并且彼此固定而不用手动或经由远程控制的缝线或夹子,并且在它们之间产生管腔连续性。
    • 6. 发明申请
    • ENHANCED COMMUNICATION INFRASTRUCTURE FOR HIERARCHICAL INTELLIGENT POWER DISTRIBUTION GRID
    • 用于分层智能电力分配网络的增强型通信基础设施
    • US20120316689A1
    • 2012-12-13
    • US13155707
    • 2011-06-08
    • Ethan Clair BoardmanSumit RoySubrahmanyam Saraswati Venkata
    • Ethan Clair BoardmanSumit RoySubrahmanyam Saraswati Venkata
    • G06F1/26
    • H02J13/0079Y02B70/3216Y04S20/221
    • The subject specification comprises enhanced communication infrastructure for a multi-tier hierarchical smart distribution grid (SDG). The SDG comprises a specified number of distribution network node controller (DNNC) components employed to desirably control communications and power distribution between respective tiers of the SDG to facilitate efficient power distribution. When communication between the a DNNC in one tier and another DNNC in another tier, is desired, the DNNC can identify available communication channels and respective communication conditions of the available communication channels, and can dynamically select a subset of available data and preferred communication channel, based at least in part on predefined control criteria, to control data transmission loads in the network and facilitate real time control of the SDG. Data can be communicated via the selected communication channel. Respective DNNCs can desirably control power distribution for respective tiers, minimizing upper tier involvement in lower tier power distribution.
    • 主题规范包括用于多层分层智能配电网(SDG)的增强的通信基础设施。 SDG包括指定数目的分配网络节点控制器(DNNC)组件,用于期望控制SDG的各个层之间的通信和功率分配,以便于有效的功率分配。 当需要一层DNNC和另一层DNNC之间的通信时,DNNC可以识别可用通信信道的可用通信信道和相应的通信条件,并且可以动态地选择可用数据和优选通信信道的子集, 至少部分地基于预定义的控制标准来控制网络中的数据传输负载并且促进SDG的实时控制。 可以通过所选择的通信信道来传送数据。 各个DNNC可以期望地控制各层的配电,从而最大限度地降低下层电力分配的上层参与。