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    • 1. 发明授权
    • System and method for sonet equipment fault management
    • Sonet设备故障管理系统与方法
    • US07929860B2
    • 2011-04-19
    • US11872233
    • 2007-10-15
    • Karl E. MillerGregory C. LaddenTakahito Yoshizawa
    • Karl E. MillerGregory C. LaddenTakahito Yoshizawa
    • H04B10/08
    • H04J3/14
    • A fiber-optic communications interface (110) and method of operation that operates with a paired fiber-optic communications interface (112) in a redundant communications termination point (101). The fiber-optic communications interface (110) has a paired card interface (122) that exchanges at least a first subset of status data between a local bearer processor (124) and a paired bearer processor (144) located within a different card cage (112). The local bearer processor (124) processes bearer data channels communicating with a remote site (102) through a remote site fiber-optic line (106). A local data interface (128) exchanges data contained in the bearer data channels between the local bearer processor (124) and a local user data network (114). The local data interface (128) also exchanges at least a second subset of the status data with the paired bearer processor (144) through the local user data network (114).
    • 一种在冗余通信终端点(101)中与成对的光纤通信接口(112)一起操作的光纤通信接口(110)和操作方法。 光纤通信接口(110)具有成对的卡接口(122),其在本地承载处理器(124)和位于不同卡笼内的配对承载处理器(144)之间交换状态数据的至少第一子集( 112)。 本地承载处理器(124)通过远程站点光纤线路(106)处理与远程站点(102)通信的承载数据信道。 本地数据接口(128)交换包含在本地承载处理器(124)和本地用户数据网络(114)之间的承载数据信道中的数据。 本地数据接口(128)还通过本地用户数据网络(114)与配对的承载处理器(144)交换状态数据的至少第二子集。
    • 2. 发明申请
    • SYSTEM AND METHOD FOR SONET EQUIPMENT FAULT MANAGEMENT
    • SONET设备故障管理系统与方法
    • US20090097842A1
    • 2009-04-16
    • US11872233
    • 2007-10-15
    • Karl E. MillerGregory C. LaddenTakahito Yoshizawa
    • Karl E. MillerGregory C. LaddenTakahito Yoshizawa
    • H04B10/08
    • H04J3/14
    • A fiber-optic communications interface (110) and method of operation that operates with a paired fiber-optic communications interface (112) in a redundant communications termination point (101). The fiber-optic communications interface (110) has a paired card interface (122) that exchanges at least a first subset of status data between a local bearer processor (124) and a paired bearer processor (144) located within a different card cage (112). The local bearer processor (124) processes bearer data channels communicating with a remote site (102) through a remote site fiber-optic line (106). A local data interface (128) exchanges data contained in the bearer data channels between the local bearer processor (124) and a local user data network (114). The local data interface (128) also exchanges at least a second subset of the status data with the paired bearer processor (144) through the local user data network (114).
    • 一种在冗余通信终端点(101)中与成对的光纤通信接口(112)一起操作的光纤通信接口(110)和操作方法。 光纤通信接口(110)具有成对的卡接口(122),其在本地承载处理器(124)和位于不同卡笼内的配对承载处理器(144)之间交换状态数据的至少第一子集( 112)。 本地承载处理器(124)通过远程站点光纤线路(106)处理与远程站点(102)通信的承载数据信道。 本地数据接口(128)交换包含在本地承载处理器(124)和本地用户数据网络(114)之间的承载数据信道中的数据。 本地数据接口(128)还通过本地用户数据网络(114)与配对的承载处理器(144)交换状态数据的至少第二子集。
    • 4. 发明申请
    • Dynamic reduction of route reconvergence time
    • 动态降低路由再聚合时间
    • US20060062199A1
    • 2006-03-23
    • US10947689
    • 2004-09-23
    • Takahito Yoshizawa
    • Takahito Yoshizawa
    • H04L12/28
    • H04L12/2854H04L45/00H04L45/22H04L45/28
    • A router (101, 103, 105) includes a communication interface, for receiving a packet (107a-107f), when connected to a communication network. The router (101, 103, 105), for example with a processor, for calculating an alternate path for routing a packet (107a-107f) received from the communication interface while awaiting a determination that a pre-determined path for the packet has failed. According to one or more embodiments, the router (101, 103, 105) can facilitate calculating an alternate path for routing the packet (107a-107f) received from the communication interface while awaiting a first determination that a pre-determined path for the packet has failed and/or a second determination that the pre-determined path is likely to fail. Further in accordance with one or more embodiments, the router (101, 103, 105) can predict a behavior of network element(s) in a route topology, wherein the network element(s) is included in a pre-determined path for routing the packet received from the communication interface.
    • 路由器(101,103,105)包括通信接口,用于在连接到通信网络时接收分组(107a-107f)。 路由器(101,103,105),例如具有处理器,用于计算用于路由从通信接口接收的分组(107a-107f)的备用路径,同时等待确定分组的预定路径 失败了。 根据一个或多个实施例,路由器(101,103,105)可以有助于计算用于路由从通信接口接收的分组(107a-107f)的替代路径,同时等待首先确定预定路径 分组失败和/或第二确定预定路径可能失败。 此外,根据一个或多个实施例,路由器(101,103,105)可以预测路由拓扑中的网络元件的行为,其中网络元件被包括在用于路由的预定路径中 从通信接口接收到的数据包。
    • 7. 发明授权
    • Method and system for performing service admission control
    • 执行服务准入控制的方法和系统
    • US08892111B2
    • 2014-11-18
    • US12316624
    • 2008-12-15
    • Takahito Yoshizawa
    • Takahito Yoshizawa
    • H04W72/00H04W28/16H04W28/26H04W84/04
    • H04W72/10H04W28/16H04W28/26H04W48/06H04W72/0486H04W76/10H04W84/045H04W88/08
    • The invention concerns a method at a base station device for performing service admission control, the base station device comprising an interface to a cellular network, and an interface to connect to a broadband device, the base station device being adapted to provide service access to devices of the cellular network, the service being provided through the broadband network.To this end the method comprises the steps of receiving a service admission request from a device of the cellular network, sending a resource reservation request to the broadband device for enabling said service on the broadband network, receiving a resource reservation response from the broadband device and responding to the device of the cellular network on the availability of the service, the availability depending on the service admission response received from the broadband device.
    • 本发明涉及一种用于执行业务准入控制的基站装置的方法,所述基站装置包括与蜂窝网络的接口,以及连接到宽带设备的接口,所述基站设备适于向设备提供服务接入 的蜂窝网络,该服务通过宽带网络提供。 为此,该方法包括以下步骤:从蜂窝网络的设备接收业务接纳请求,向宽带设备发送资源预留请求,以使能宽带网络上的所述业务,从宽带设备接收资源预留响应;以及 响应于蜂窝网络的设备对服务的可用性,可用性取决于从宽带设备接收的业务准入响应。
    • 8. 发明授权
    • Dynamic reduction of route reconvergence time
    • 动态降低路由再聚合时间
    • US07570581B2
    • 2009-08-04
    • US10947689
    • 2004-09-23
    • Takahito Yoshizawa
    • Takahito Yoshizawa
    • G01R31/08
    • H04L12/2854H04L45/00H04L45/22H04L45/28
    • A router (101, 103, 105) includes a communication interface, for receiving a packet (107a-107f), when connected to a communication network. The router (101, 103, 105), for example with a processor, for calculating an alternate path for routing a packet (107a-107f) received from the communication interface while awaiting a determination that a pre-determined path for the packet has failed. According to one or more embodiments, the router (101, 103, 105) can facilitate calculating an alternate path for routing the packet (107a-107f) received from the communication interface while awaiting a first determination that a pre-determined path for the packet has failed and/or a second determination that the pre-determined path is likely to fail. Further in accordance with one or more embodiments, the router (101, 103, 105) can predict a behavior of network element(s) in a route topology, wherein the network element(s) is included in a pre-determined path for routing the packet received from the communication interface.
    • 路由器(101,103,105)包括通信接口,用于在连接到通信网络时接收分组(107a-107f)。 路由器(101,103,105)例如具有处理器,用于计算用于路由从通信接口接收的分组(107a-107f)的备用路径,同时等待确定分组的预定路径失败 。 根据一个或多个实施例,路由器(101,103,105)可以有助于计算用于路由从通信接口接收到的分组(107a-107f)的备用路径,同时等待第一次确定分组的预定路径 已经失败和/或第二次确定预定路径可能失败。 此外,根据一个或多个实施例,路由器(101,103,105)可以预测路由拓扑中的网络元件的行为,其中网络元件被包括在用于路由的预定路径中 从通信接口接收到的数据包。