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公开(公告)号:US20160346046A1
公开(公告)日:2016-12-01
申请号:US15116421
申请日:2014-02-05
Applicant: Brainlab AG
Inventor: Tanja Tausch , Stefan Wimmer
CPC classification number: B63B59/045 , A01N25/34 , A61B5/064 , A61B34/20 , A61B90/39 , A61B2034/2046 , A61B2090/3925 , A61B2090/3937 , A61B2090/3954 , A61B2090/3966 , A61B2090/397 , B63B59/04 , B63B2017/0045 , B63H20/36 , C07D498/18 , C09D5/1625 , E02B17/0017 , Y10T428/1345 , Y10T428/24273 , A01N43/90
Abstract: The instant invention describes an anti-biofouling structure for placement onto structures or surfaces that are exposed to aquatic environments. Embedded within the anti-biofouling structure are agents that can diffuse out of the structure and prevent the formation and/or accumulation of plant and animal species build-up that creates biofouling. The instant invention also describes system for preventing biofouling of an object stored in an aquatic environment which includes the anti-biofouling structure and a protective cover element constructed and arranged to fit various structures, such as boat propellers.
Abstract translation: 本发明描述了用于放置在暴露于水生环境的结构或表面上的抗生物结垢结构。 嵌入抗生物结垢结构内的是可以扩散出结构并阻止植物和动物物种形成和/或积累的物质,其形成生物结垢。 本发明还描述了用于防止存储在水生环境中的物体的生物污损的系统,其包括抗生物结垢结构和构造和布置成适合各种结构(例如船用螺旋桨)的保护盖元件。
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公开(公告)号:US20180021092A2
公开(公告)日:2018-01-25
申请号:US15116421
申请日:2014-02-05
Applicant: Brainlab AG
Inventor: Tanja Tausch , Stefan Wimmer
CPC classification number: B63B59/045 , A01N25/34 , A61B5/064 , A61B34/20 , A61B90/39 , A61B2034/2046 , A61B2090/3925 , A61B2090/3937 , A61B2090/3954 , A61B2090/3966 , A61B2090/397 , B63B59/04 , B63B2017/0045 , B63H20/36 , C07D498/18 , C09D5/1625 , E02B17/0017 , Y10T428/1345 , Y10T428/24273 , A01N43/90
Abstract: The invention relates to a data processing method for identifying a medical instrument (5) which is configured to be tracked by means of a medical tracking system (4), wherein the method is designed to be executed by a computer and comprises the following steps:—acquiring relative position and/or movement data which comprise relative position and/or movement information describing a relative position and/or movement between a calibration tool (1), which comprises at least one supporting surface (2), and the medical instrument (5) which is in contact with the side or edge of the at least one supporting surface (2), respectively;—acquiring geometry data which comprise geometry information describing at least one geometrical feature for a plurality of candidate instruments;—determining, on the basis of the relative position and/or movement data and the geometry data, candidate data which comprise candidate information describing at least one candidate instrument from the plurality of candidate instruments, the at least one geometrical feature of which would allow the relative position and/or movement between the medical instrument (5) and the calibration tool (1).
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