会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明申请
    • WSON RESTORATION
    • WSON恢复
    • US20150244453A1
    • 2015-08-27
    • US14344973
    • 2011-10-12
    • Giulio BottariDiego CavigliaDaniele Ceccarelli
    • Giulio BottariDiego CavigliaDaniele Ceccarelli
    • H04B10/032H04Q11/00H04J14/02H04B10/2575
    • H04B10/032H04B10/2575H04J14/00H04J14/0209H04J14/0212H04J14/0217H04J14/0257H04J14/0267H04J14/0268H04J14/0271H04J14/0284H04Q11/0005H04Q2011/0043
    • Dynamic restoration involves routing and bandwidth assignment of an unplanned restoration path in a wavelength switched optical network (20), having regeneration nodes (60), nodes each having a ROADM (62) having drop paths and add paths. An electrical switch (68) provides configurable regeneration capacity by coupling selected drop paths to selected add paths. Some of the configurable regeneration capacity is kept for unplanned restoration paths. A PCE determines (120) routing and bandwidth assignments for an unplanned restoration path for the traffic flow to avoid a fault, and sends (130) configuration messages to the nodes to set up the unplanned restoration path dynamically and to configure the electrical switch to provide regeneration on the path. Keeping some reconfigurable regeneration capacity enables much longer unplanned paths to be found to avoid faults, and enables wavelength conversion if needed. Thus the reliability of finding at least one path avoiding the fault can be increased.
    • 动态恢复涉及在具有再生节点(60)的波长交换光网络(20)中的非计划恢复路径的路由和带宽分配,每个节点具有具有丢弃路径和添加路径的ROADM(62)。 电开关(68)通过将所选择的放置路径耦合到所选择的附加路径来提供可配置的再生能力。 一些可配置的再生能力被保留用于非计划的恢复路径。 PCE确定(120)用于业务流的非计划恢复路径的路由和带宽分配以避免故障,并且向节点发送(130)配置消息以动态地建立非计划恢复路径并且配置电开关以提供 在路上再生。 保持一些可重新配置的再生能力可以实现更长的非计划路径,以避免故障,并在需要时实现波长转换。 因此,可以增加找到至少一个避免故障的路径的可靠性。
    • 4. 发明授权
    • WSON restoration
    • WSON恢复
    • US09559770B2
    • 2017-01-31
    • US14344973
    • 2011-10-12
    • Giulio BottariDiego CavigliaDaniele Ceccarelli
    • Giulio BottariDiego CavigliaDaniele Ceccarelli
    • H04B10/032H04B10/2575H04J14/00H04Q11/00H04J14/02
    • H04B10/032H04B10/2575H04J14/00H04J14/0209H04J14/0212H04J14/0217H04J14/0257H04J14/0267H04J14/0268H04J14/0271H04J14/0284H04Q11/0005H04Q2011/0043
    • Dynamic restoration involves routing and bandwidth assignment of an unplanned restoration path in a wavelength switched optical network (20), having regeneration nodes (60), nodes each having a ROADM (62) having drop paths and add paths. An electrical switch (68) provides configurable regeneration capacity by coupling selected drop paths to selected add paths. Some of the configurable regeneration capacity is kept for unplanned restoration paths. A PCE determines (120) routing and bandwidth assignments for an unplanned restoration path for the traffic flow to avoid a fault, and sends (130) configuration messages to the nodes to set up the unplanned restoration path dynamically and to configure the electrical switch to provide regeneration on the path. Keeping some reconfigurable regeneration capacity enables much longer unplanned paths to be found to avoid faults, and enables wavelength conversion if needed. Thus the reliability of finding at least one path avoiding the fault can be increased.
    • 动态恢复涉及在具有再生节点(60)的波长交换光网络(20)中的非计划恢复路径的路由和带宽分配,每个节点具有具有丢弃路径和添加路径的ROADM(62)。 电开关(68)通过将所选择的放置路径耦合到所选择的附加路径来提供可配置的再生能力。 一些可配置的再生能力被保留用于非计划的恢复路径。 PCE确定(120)用于业务流的非计划恢复路径的路由和带宽分配以避免故障,并且向节点发送(130)配置消息以动态地建立非计划恢复路径并且配置电开关以提供 在路上再生。 保持一些可重新配置的再生能力可以实现更长的非计划路径,以避免故障,并在需要时实现波长转换。 因此,可以增加找到至少一个避免故障的路径的可靠性。
    • 6. 发明授权
    • Configuring a path in an optical communications network
    • 配置光通信网络中的路径
    • US08934768B2
    • 2015-01-13
    • US13699799
    • 2010-06-16
    • Giulio BottariDiego CavigliaDaniele Ceccarelli
    • Giulio BottariDiego CavigliaDaniele Ceccarelli
    • H04J14/00H04B10/00H04B10/27H04J14/02
    • H04B10/27H04J14/02
    • A method of configuring a path between an ingress node and an egress node in an optical communications network, the path comprising a first hop and a subsequent hop. The method includes: a) selecting a candidate hop for the first hop of the path; b) obtaining a value of a signal feasibility parameter for the candidate hop; c) determining whether said value lies within an acceptable value range and if one is, accepting said candidate hop for the first hop of the path, and if one is not, repeating steps a. to c.; d) selecting a candidate hop for the subsequent hop of path; e) obtaining a value of a signal feasibility parameter for a combined path comprising the first hop and the candidate hop for the subsequent hop of the path; f) determining whether said value lies within an acceptable value range, if one is, acceptable value range accepting said candidate hop for the subsequent hop of the path, and if one is not, repeating steps d. and e.; and g) generating and transmitting a control signal for configuring the path. Each step of obtaining a value of a signal feasibility parameter comprises checking whether a measured value of the signal feasibility parameter is available, and if one is, retrieving said measured value and if one is not, calculating an estimated value of the signal feasibility parameter.
    • 一种在光通信网络中配置入口节点和出口节点之间的路径的方法,所述路径包括第一跳和后续跳。 该方法包括:a)选择路径第一跳的候选跳; b)获得候选跳的信号可行性参数的值; c)确定所述值是否在可接受的值范围内,如果是,则接受所述路径的第一跳的所述候选跳,如果不是,则重复步骤a。 到C. d)为随后的路径跳跃选择候选跳; e)获得用于组合路径的信号可行性参数的值,所述组合路径包括所述路径的后续跳跃的所述第一跳​​和候选跳; f)确定所述值是否在可接受的值范围内,如果是接受所述路径的后续跳跃的所述候选跳跃的可接受值范围,并且如果不是,则重复步骤d。 和e。 以及g)生成和发送用于配置路径的控制信号。 获取信号可行性参数的值的每个步骤包括检查信号可行性参数的测量值是否可用,并且如果是,检索所述测量值,如果不是,则计算信号可行性参数的估计值。
    • 7. 发明申请
    • CONFIGURING A PATH IN AN OPTICAL COMMUNICATIONS NETWORK
    • 配置光通信网络中的路径
    • US20130142508A1
    • 2013-06-06
    • US13699799
    • 2010-06-16
    • Giulio BottariDiego CavigliaDaniele Ceccarelli
    • Giulio BottariDiego CavigliaDaniele Ceccarelli
    • H04B10/27
    • H04B10/27H04J14/02
    • A method of configuring a path between an ingress node and an egress node in an optical communications network, the path comprising a first hop and a subsequent hop. The method includes: a) selecting a candidate hop for the first hop of the path; b) obtaining a value of a signal feasibility parameter for the candidate hop; c) determining whether said value lies within an acceptable value range and if one is, accepting said candidate hop for the first hop of the path, and if one is not, repeating steps a. to c.; d) selecting a candidate hop for the subsequent hop of path; e) obtaining a value of a signal feasibility parameter for a combined path comprising the first hop and the candidate hop for the subsequent hop of the path; f) determining whether said value lies within an acceptable value range, if one is, acceptable value range accepting said candidate hop for the subsequent hop of the path, and if one is not, repeating steps d. and e.; and g) generating and transmitting a control signal for configuring the path. Each step of obtaining a value of a signal feasibility parameter comprises checking whether a measured value of the signal feasibility parameter is available, and if one is, retrieving said measured value and if one is not, calculating an estimated value of the signal feasibility parameter.
    • 一种在光通信网络中配置入口节点和出口节点之间的路径的方法,所述路径包括第一跳和后续跳。 该方法包括:a)选择路径第一跳的候选跳; b)获得候选跳的信号可行性参数的值; c)确定所述值是否在可接受的值范围内,如果是,则接受所述路径的第一跳的所述候选跳,如果不是,则重复步骤a。 到C. d)为随后的路径跳跃选择候选跳; e)获得用于组合路径的信号可行性参数的值,所述组合路径包括所述路径的后续跳跃的所述第一跳​​和候选跳; f)确定所述值是否在可接受的值范围内,如果是接受所述路径的后续跳跃的所述候选跳跃的可接受值范围,并且如果不是,则重复步骤d。 和e。 以及g)生成和发送用于配置路径的控制信号。 获取信号可行性参数的值的每个步骤包括检查信号可行性参数的测量值是否可用,并且如果是,检索所述测量值,如果不是,则计算信号可行性参数的估计值。
    • 8. 发明申请
    • METHOD AND APPARATUS FOR OPTICAL PATH VALIDATION IN AN OPTICAL NETWORK
    • 光网络光路验证方法与装置
    • US20120237207A1
    • 2012-09-20
    • US13095053
    • 2011-04-27
    • Diego CavigliaGiulio BottariDaniele Ceccarelli
    • Diego CavigliaGiulio BottariDaniele Ceccarelli
    • H04B17/00
    • H04J14/0227H04J14/0257H04J14/0267H04J14/0268H04J14/0269H04J14/0271
    • The invention relates to a method in a border node of an optical network and in an external optical channel originating apparatus and to a border node of an optical network and a router. The invention is particularly applicable to optical path validation in an optical network for an externally originating optical channel. The invention may be used during an optical path fault recovery operation.In the method in a border node of an optical network optical channel traffic parameter associated with an optical channel are received from an optical channel originator external to the optical network. The received optical channel traffic parameters are used to determine the suitability of at least one optical path within the optical network for an externally originating optical channel. If a suitable optical path is determined an optical channel availability message indicating the availability at the border node of an optical path within the optical network for the optical channel is sent to the optical channel originator.In the method in an optical channel originator external to an optical network the optical channel traffic parameters associated with an optical channel originating at the optical channel originator are sent to a border node of the optical network. An optical channel availability message indicating the availability at the optical network border node of an optical path within the optical network for the optical channel with which the optical channel traffic parameters are associated is received from the border node. An available optical channel status of the optical channel is determined from the received optical channel availability message for the optical channel.
    • 本发明涉及光网络和外部光信道发起装置的边界节点和光网络和路由器的边界节点的方法。 本发明特别适用于用于外部发送光信道的光网络中的光路验证。 本发明可以在光路故障恢复操作期间使用。 在光网络的光信道发起方接收与光信道相关联的光网络光信道业务参数的边界节点中的方法。 所接收的光信道业务参数用于确定用于外部发起的光信道的光网络内的至少一个光路的适用性。 如果确定合适的光路,则向光信道发起者发送指示在光信道的光网络内的光路的边界节点处的可用性的光信道可用性消息。 在光网络外部的光信道发起方的方法中,将与在光信道发起方发起的光信道相关联的光信道业务参数发送到光网络的边界节点。 从边界节点接收光信道可用性消息,指示光网络边界节点对于光信道业务参数所关联的光信道的光网络内的光路的可用性。 从所接收的光信道的光信道可用性消息确定光信道的可用光信道状态。