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    • 1. 发明授权
    • Scalable and modular automated fiber optic cross-connect systems
    • 可扩展和模块化的自动光纤交叉连接系统
    • US09411108B2
    • 2016-08-09
    • US14324120
    • 2014-07-04
    • Anthony Stephen Kewitsch
    • Anthony Stephen Kewitsch
    • G02B6/00G02B6/35H04Q11/00G02B6/38G02B6/44H04Q1/14
    • G02B6/356G02B6/3502G02B6/3556G02B6/3564G02B6/3897G02B6/4452H04Q1/145H04Q11/0005H04Q2011/0058
    • This invention discloses patch-panel systems for organized configuration management of large numbers of fiber optic interconnection strands, wherein each strand transmits high bandwidth signals between devices. In particular, a system for the programmable interconnection of large numbers of optical fiber strands is provided, whereby strands connecting a two-dimensional array of connectors are mapped in an ordered and rule based fashion into a one-dimensional array with substantially straight lines strands there between. The braid of fiber optic strands is partitioned into multiple independent, non-interfering zones or subbraids. The separation into subbraids provides spatial clearance for one or more robotic grippers to enter the free volume substantially adjacent to the two-dimensional array of connectors and to mechanically reconfigure one or more optical fiber strands without interrupting or entangling other fiber optic strands.
    • 本发明公开了用于对大量光纤互连绞线进行有组织配置管理的接线板系统,其中每条线在器件之间传输高带宽信号。 特别地,提供了一种用于大量光纤线的可编程互连的系统,由此连接二维连接器阵列的线将以有序和规则为基础的方式映射为一维阵列,其中基本上具有直线线 之间。 纤维束的编织被划分成多个独立的,非干扰的区域或亚类。 分离成亚标准物为一个或多个机器人夹持器提供空间间隙,以进入与二维连接器阵列基本相邻的自由体积,并且机械地重新配置一个或多个光纤线束而不中断或缠结其它光纤线束。
    • 2. 发明申请
    • Ultra-compact, Software-defined Fiber Optic Patch-panels
    • 超小型,软件定义的光纤贴片
    • US20150098698A1
    • 2015-04-09
    • US14506653
    • 2014-10-05
    • Anthony Stephen Kewitsch
    • Anthony Stephen Kewitsch
    • G02B6/44H04Q11/00
    • G02B6/4452G02B6/3504G02B6/3556G02B6/3572H04Q11/0005H04Q2011/0007
    • An automated, robotic patch-panel system in a highly compact form factor implementing Knots and Braids switching algorithms is disclosed. This system incorporates stacked layers of connector ports, each row of connector ports defining an arc with a radius of curvature, wherein the radius of curvature is substantially larger than the total height of the stacked layers. A synchronized gripper pair on a three axis actuation system is used to disconnect, weave and connect fibers arbitrarily across an array of dense connector ports on a curvilinear surface. Each row of connector ports is independently translatable by slight rotation to generate the proper relationship between surrounding fibers and the individual fiber undergoing the multi-step reconfiguration process.
    • 公开了一种实现Knots和Braids切换算法的高度紧凑形状的自动化机器人接线板系统。 该系统包括堆叠的连接器端口层,每排连接器端口限定具有曲率半径的弧形,其中曲率半径基本上大于堆叠层的总高度。 三轴致动系统上的同步夹持器对用于在曲线表面上的一组致密连接器端口任意地断开,编织和连接光纤。 每排连接器端口可以通过轻微旋转独立地平移,以产生周围光纤和经历多步重新配置过程的单独光纤之间的适当关系。
    • 3. 发明授权
    • Scalable and modular automated fiber optic cross-connect systems
    • 可扩展和模块化的自动光纤交叉连接系统
    • US08068715B2
    • 2011-11-29
    • US12196262
    • 2008-08-21
    • Anthony Stephen Kewitsch
    • Anthony Stephen Kewitsch
    • G02B6/00G02B6/26
    • G02B6/356G02B6/3502G02B6/3556G02B6/3564G02B6/3897G02B6/4452H04Q1/145H04Q11/0005H04Q2011/0058
    • This invention discloses highly scalable and modular automated optical cross connect switch devices which exhibit low loss and scalability to high port counts. In particular, a device for the programmable interconnection of large numbers of optical fibers (100's-1000's) is provided, whereby a two-dimensional array of fiber optic connections is mapped in an ordered and rule-based fashion into a one-dimensional array with tensioned fiber optic circuit elements tracing substantially straight lines there between. Fiber optic elements are terminated in a stacked arrangement of flexible fiber optic circuit elements with a capacity to retain excess fiber lengths while maintaining an adequate bend radius. The combination of these elements partitions the switch volume into multiple independent, non-interfering zones, which retain their independence for arbitrary and unlimited numbers of reconfigurations. The separation into spaced-apart zones provides clearance for one or more robotic actuators to enter the free volume substantially adjacent to the two-dimensional array of connectors and mechanically reconfigure connectors without interrupting other circuits.
    • 本发明公开了高可扩展和模块化的自动光学交叉连接开关装置,其对高端口数量表现出低的损耗和可扩展性。 特别地,提供了用于大量光纤(100'-1000's)的可编程互连的装置,由此将光纤连接的二维阵列以有序和基于规则的方式映射成具有一维阵列的一维阵列, 张紧的光纤电路元件之间基本上直线。 光纤元件以柔性光纤电路元件的堆叠布置端接,具有在保持足够的弯曲半径的同时保留多余的纤维长度的能力。 这些元件的组合将开关体积分成多个独立的非干扰区域,这些区域保持其独立性,可任意且无限数量的重新配置。 分离成间隔开的区域为一个或多个机器人致动器提供间隙,以进入与二维连接器阵列基本相邻的自由体积,并机械地重新配置连接器而不中断其它电路。
    • 4. 发明申请
    • Scalable and Modular Automated Fiber Optic Cross-Connect Systems
    • 可扩展和模块化自动光纤交叉连接系统
    • US20150331199A1
    • 2015-11-19
    • US14324120
    • 2014-07-04
    • Anthony Stephen Kewitsch
    • Anthony Stephen Kewitsch
    • G02B6/35G02B6/44H04Q11/00G02B6/38
    • G02B6/356G02B6/3502G02B6/3556G02B6/3564G02B6/3897G02B6/4452H04Q1/145H04Q11/0005H04Q2011/0058
    • This invention discloses patch-panel systems for organized configuration management of large numbers of fiber optic interconnection strands, wherein each strand transmits high bandwidth signals between devices. In particular, a system for the programmable interconnection of large numbers of optical fiber strands is provided, whereby strands connecting a two-dimensional array of connectors are mapped in an ordered and rule based fashion into a one-dimensional array with substantially straight lines strands there between. The braid of fiber optic strands is partitioned into multiple independent, non-interfering zones or subbraids. The separation into subbraids provides spatial clearance for one or more robotic grippers to enter the free volume substantially adjacent to the two-dimensional array of connectors and to mechanically reconfigure one or more optical fiber strands without interrupting or entangling other fiber optic strands.
    • 本发明公开了用于对大量光纤互连绞线进行有组织配置管理的接线板系统,其中每条线在器件之间传输高带宽信号。 特别地,提供了一种用于大量光纤线的可编程互连的系统,由此连接二维连接器阵列的线将以有序和规则为基础的方式映射为一维阵列,其中基本上具有直线线 之间。 纤维束的编织被划分成多个独立的,非干扰的区域或亚类。 分离成亚标准物为一个或多个机器人夹持器提供空间间隙,以进入与二维连接器阵列基本相邻的自由体积,并且机械地重新配置一个或多个光纤线束而不中断或缠结其它光纤线束。
    • 7. 发明授权
    • Radio frequency identification overlay network for fiber optic communication systems
    • 射频识别覆盖网光纤通信系统
    • US09188748B2
    • 2015-11-17
    • US14047169
    • 2013-10-07
    • Anthony Stephen Kewitsch
    • Anthony Stephen Kewitsch
    • G02B6/44H04B10/00G08C19/16G08B13/14G02B6/38
    • G02B6/3817G02B6/3895G02B6/447G06K7/10178
    • In this invention, a radio frequency identification overlay network that automates the discovery and configuration management of all physical fiber optic connections within a distributed communications network is disclosed. Miniaturized, low crosstalk RFID tags at a first fiber optic receptacle location and miniature, distributed, multiplexed reader antenna at a distant, second fiber optic receptacle location are joined by a fiber optic link which transmits both optical data and RF electronic signals. This electronic-fiber optic interface is comprised of two separated, miniaturized resonant antenna in communication with another through a resonant RF transmission line integral to the fiber optic cable. This RFID overlay network is comprised of multiplexed RFID readers, RF resonant fiber optic cables, and miniaturized RFID tags attached to the connector receptacles of network elements. The RFID overlay network interrogates tags automatically and remotely through the RF transmissive and optically transmissive fiber optic patch cords.
    • 在本发明中,公开了一种使分布式通信网络内的所有物理光纤连接的发现和配置管理自动化的射频识别覆盖网络。 在第一光纤插座位置处的小型化,低串扰RFID标签和位于远处的第二光纤插座位置的微型分布式多路读取器天线通过光纤链路连接,光纤链路传输光数据和RF电子信号。 该电子光纤接口包括两个分开的小型谐振天线,其通过与光纤电缆成一体的谐振RF传输线与另一个谐振天线通信。 该RFID覆盖网络由多路复用的RFID读取器,RF谐振光纤电缆和连接到网络元件的连接器插座的小型化RFID标签组成。 RFID覆盖网络通过RF透射和光学透射光纤跳线自动和远程地询问标签。
    • 8. 发明授权
    • Scalable and modular automated fiber optic cross-connect systems
    • 可扩展和模块化的自动光纤交叉连接系统
    • US08805155B2
    • 2014-08-12
    • US13279304
    • 2011-10-23
    • Anthony Stephen Kewitsch
    • Anthony Stephen Kewitsch
    • G02B6/00G02B6/35
    • G02B6/356G02B6/3502G02B6/3556G02B6/3564G02B6/3897G02B6/4452H04Q1/145H04Q11/0005H04Q2011/0058
    • This invention discloses scalable and modular automated optical cross-connect devices which exhibit low loss and scalability to high port counts. In particular, a device for the programmable interconnection of large numbers of optical fibers is provided, whereby a two-dimensional array of fiber optic connections is mapped in an ordered and rule based fashion into a one-dimensional array with tensioned fiber optic elements tracing substantially straight lines there between. Fiber optic elements are terminated in a stacked arrangement of flexible fiber optic elements with a capacity to retain excess fiber lengths while maintaining an adequate bend radius. The combination of these elements partitions the switch volume into multiple independent, non-interfering zones. The separation into spaced-apart zones provides clearance for one or more robotic actuators to enter the free volume substantially adjacent to the two-dimensional array of connectors and mechanically reconfigure connectors without interrupting other fiber elements.
    • 本发明公开了可扩展和模块化的自动光学交叉连接装置,其对高端口数量表现出低损耗和可扩展性。 特别地,提供了用于大量光纤的可编程互连的设备,由此将光纤连接的二维阵列以有序和规则的形式映射成一维阵列,其中张紧的光纤元件基本上跟踪 直线之间。 光纤元件以柔性光纤元件的堆叠布置端接,具有保持足够弯曲半径的多余纤维长度的能力。 这些元件的组合将开关体积分成多个独立的非干扰区域。 分离成间隔开的区域为一个或多个机器人致动器提供间隙,以进入与二维连接器阵列基本相邻的自由体积,并机械地重新配置连接器而不中断其它光纤元件。