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    • 2. 发明授权
    • Retention of a sub-network connection home path
    • 保留子网连接主路径
    • US09088486B2
    • 2015-07-21
    • US13424063
    • 2012-03-19
    • Jeffrey Scott MoynihanJack OltmanVagish MadrahalliNeena Aluri
    • Jeffrey Scott MoynihanJack OltmanVagish MadrahalliNeena Aluri
    • H04L12/24
    • H04L41/0659H04L41/0672
    • Embodiments of the present invention provide a method and system for reserving a connection's home path resources and restoring the connection on a link that includes a reserved priority bandwidth. A bandwidth advertisement indicating that the reserved priority bandwidth is available is analyzed and a restoration request requesting to route the connection on the link is sent. The reserved priority bandwidth is used to route the connection when the connection has a reserved home path on the link. When the connection has a reserved home path not on the link, a determination is made as to whether a normal priority bandwidth on the link is available and whether the connection is unrestorable on another link. The reserved priority bandwidth is used to temporarily route the connection when normal priority bandwidth on the link is unavailable and the connection is unrestorable on another link.
    • 本发明的实施例提供了一种用于保留连接的归属路径资源并在包括预留优先级带宽的链路上恢复连接的方法和系统。 分配指示保留的优先带宽可用的带宽通告,并发送请求路由链路上的连接的恢复请求。 当连接在链路上具有保留的归属路径时,保留的优先带宽用于路由连接。 当连接具有不在链路上的保留主路径时,确定链路上的正常优先带宽是否可用以及在另一链路上连接是否不可恢复。 当链路上的正常优先级带宽不可用并且另一个链路上的连接不可恢复时,保留优先级带宽用于临时路由连接。
    • 3. 发明申请
    • METHOD AND SYSTEM FOR OPTICAL NETWORK SMART TIMER MANAGEMENT VIA DELAY MEASUREMENT BETWEEN SPANS
    • 光网络智能定时器管理方法与系统通过SPANS之间的延迟测量
    • US20120106950A1
    • 2012-05-03
    • US12938904
    • 2010-11-03
    • Vagish MADRAHALLIJeffrey Scott MOYNIHANRichard CONKLINMatt CONNOLLY
    • Vagish MADRAHALLIJeffrey Scott MOYNIHANRichard CONKLINMatt CONNOLLY
    • H04B10/08
    • H04J3/065H04J3/0667H04J2203/0085H04L43/0858H04L69/28
    • A method and system for determining timers in an High Level Data Link Control (HDLC) Traffic Manager (HTM) state machine are disclosed. According to one aspect, the invention provides for determining a transit delay between two nodes by sending a first packet having a delay measurement byte to a second node that is on a link between the first node and the second node. The method also includes receiving a second packet with the delay measurement byte from the second node. The delay measurement byte sent by the second node is adjusted by the second node to indicate its receipt by the second node. A measured delay value is determined. The measured delay value is the delay between a time of sending the first packet to the second node and receiving the second packet from the second node. The measured delay value is determined by the hardware of the first node. Upon determining the measured delay value, timer values of the HTM state machine are set based on the measured delay value.
    • 公开了一种用于确定高级数据链路控制(HDLC)流量管理器(HTM)状态机中的定时器的方法和系统。 根据一个方面,本发明提供通过向第一节点和第二节点之间的链路上的第二节点发送具有延迟测量字节的第一分组来确定两个节点之间的传输延迟。 该方法还包括从第二节点接收具有延迟测量字节的第二分组。 由第二节点调整由第二节点发送的延迟测量字节,以指示其由第二节点接收。 确定测量的延迟值。 所测量的延迟值是发送第一分组到第二节点的时间和从第二节点接收第二分组之间的延迟。 测量的延迟值由第一个节点的硬件确定。 在确定测量的延迟值后,基于所测量的延迟值来设置HTM状态机的定时器值。
    • 8. 发明申请
    • RETENTION OF A SUB-NETWORK CONNECTION HOME PATH
    • 保留子网连接首页路径
    • US20130242721A1
    • 2013-09-19
    • US13424063
    • 2012-03-19
    • Jeffrey Scott MOYNIHANJack OLTMANVagish MADRAHALLINeena ALURI
    • Jeffrey Scott MOYNIHANJack OLTMANVagish MADRAHALLINeena ALURI
    • H04L12/24
    • H04L41/0659H04L41/0672
    • Embodiments of the present invention provide a method and system for reserving a connection's home path resources and restoring the connection on a link that includes a reserved priority bandwidth. A bandwidth advertisement indicating that the reserved priority bandwidth is available is analyzed and a restoration request requesting to route the connection on the link is sent. The reserved priority bandwidth is used to route the connection when the connection has a reserved home path on the link. When the connection has a reserved home path not on the link, a determination is made as to whether a normal priority bandwidth on the link is available and whether the connection is unrestorable on another link. The reserved priority bandwidth is used to temporarily route the connection when normal priority bandwidth on the link is unavailable and the connection is unrestorable on another link.
    • 本发明的实施例提供了一种用于保留连接的归属路径资源并在包括预留优先级带宽的链路上恢复连接的方法和系统。 分配指示保留的优先带宽可用的带宽通告,并发送请求路由链路上的连接的恢复请求。 当连接在链路上具有保留的归属路径时,保留的优先带宽用于路由连接。 当连接具有不在链路上的保留主路径时,确定链路上的正常优先带宽是否可用以及在另一链路上连接是否不可恢复。 当链路上的正常优先级带宽不可用并且另一个链路上的连接不可恢复时,保留优先级带宽用于临时路由连接。
    • 9. 发明授权
    • Pseudo-noise insertion on unacceptable input data sequence in optical networks
    • 光网络中不可接受的输入数据序列上的伪噪声插入
    • US08356233B2
    • 2013-01-15
    • US12783209
    • 2010-05-19
    • Jeffery Thomas NicholsJeffrey Scott Moynihan
    • Jeffery Thomas NicholsJeffrey Scott Moynihan
    • H03M13/00
    • H04J3/1611H04J3/1652H04J2203/006
    • The present disclosure provides systems and methods for inserting pseudo-noise in a data stream based on an unacceptable input data sequence in an optical network thereby preventing unnecessary loss of frame in SONET/SDH or Optical Transport Network (OTN) systems. The present disclosure includes a SONET/SDH or OTN framer, a transceiver, and a method for detecting an unacceptable data sequence or pattern and inserting a keep-alive or pseudo-noise sequence in the data sequence to maintaining framing on subsequent network elements, framers, transceivers, etc. For example, the present invention, upon receiving an unacceptable pattern of zeros or low ones density caused by a loss of signal condition or the like, may insert a pseudorandom noise pattern into the transmitted frame. This allows the downstream network element to continue a frame lock on the incoming signal, and thus keep the frame overhead and data communications channels from being lost.
    • 本公开提供了用于在光网络中基于不可接受的输入数据序列在数据流中插入伪噪声的系统和方法,从而防止SONET / SDH或光传输网络(OTN)系统中的帧的不必要的丢失。 本公开包括SONET / SDH或OTN成帧器,收发器和用于检测不可接受的数据序列或模式以及在数据序列中插入保持活动或伪噪声序列以在后续网络元件,成帧器 ,收发机等。例如,本发明在接收到由信号条件等的丢失引起的不可接受的零或不足的密度模式时,可以将伪随机噪声模式插入发送的帧中。 这允许下游网络元件在输入信号上继续帧锁定,并且因此保持帧开销和数据通信信道丢失。
    • 10. 发明申请
    • NETWORK ELEMENT CLOCK SYNCHRONIZATION SYSTEMS AND METHODS USING OPTICAL TRANSPORT NETWORK DELAY MEASUREMENT
    • 网络元件时钟同步系统和使用光传输网络延迟测量的方法
    • US20120213508A1
    • 2012-08-23
    • US13032790
    • 2011-02-23
    • Jeffrey Scott MOYNIHAN
    • Jeffrey Scott MOYNIHAN
    • H04B10/00H04B10/08
    • H04J3/1658H04J3/0682H04L7/0054H04L9/12H04L25/247H04L27/2653
    • The present disclosure provides Network Element (NE) clock synchronization using Optical Transport Network (OTN) delay measurement systems and methods such as described in ITU-T G.709 (12/2009) “Interfaces for the Optical Transport Network (OTN)” and G.798 (10/2010) “Characteristics of optical transport network hierarchy equipment functional blocks”. OTN provides a Delay Measurement (DM) function to measure fiber path latency between two network elements to within microsecond accuracy. The convergence of packet switching and OTN transport into the same network element allows the sharing of this information between the two applications. The OTN delay measurement value can be used to synchronize two network element clocks to within microsecond accuracy without the need for a costly GPS synchronization solution or reduced accuracy NTP solutions.
    • 本公开提供了使用光传输网络(OTN)延迟测量系统的网元(NE)时钟同步和诸如在ITU-T G.709(12/2009)“Optical Transport Network(OTN)的接口”中描述的方法,以及 G.798(10/2010)“光传输网络层次设备功能块特性”。 OTN提供延迟测量(DM)功能,以测量两个网络元件之间的光纤延迟至微秒精度。 分组交换和OTN传输到同一网络元素的收敛允许在两个应用之间共享该信息。 OTN延迟测量值可用于将两个网元时钟同步至微秒精度,而不需要昂贵的GPS同步解决方案或降低精度的NTP解决方案。