公开(公告)号：US20140269592A1

公开(公告)日：2014-09-18

申请号：US14295445

申请日：2014-06-04

Applicant: Cisco Technology, Inc.

Inventor： Sateesh K. Addepalli ,  Kevin C. Lee ,  Raghuram S. Sudhaakar ,  Jean-Philippe Vasseur ,  Flavio Bonomi

IPC: H04L5/00

CPC classification number: H04L5/005 ,  H04L1/007 ,  H04L1/0075 ,  H04L5/0055 ,  H04L27/345 ,  H04L27/3472

Abstract: In one embodiment, a device (e.g., a transmitter) determines a level of error protection of each bit position within symbols of a particular constellation map used for modulation-based communication, and also determines priority levels of application data bits to be placed into a communication frame. Application data bits may then be placed into symbols of the communication frame, where higher priority application data bits are placed into bit positions with greater or equal levels of protection than bit positions into which lower priority application data bits are placed. The communication frame may then be transmitted to one or more receivers with an indication of how to decode the placement of the application data bits within the symbols. In another embodiment, the particular constellation map may be dynamically selected from a plurality of available constellation maps, such as based on communication channel conditions and/or applications generating the data.

Abstract translation: 在一个实施例中，设备（例如，发射机）确定用于基于调制的通信的特定星座图的符号内的每个比特位置的错误保护的水平，并且还确定要放入到基于调制的通信的应用数据比特的优先级 通讯框架 应用数据位然后可以被放置在通信帧的符号中，其中较高优先级的应用数据位被放置在与放置较低优先级应用数据位的位位置相比具有更大或相同保护级别的位位置中。 然后可以将通信帧发送到具有如何解码符号内的应用数据位的位置的指示的一个或多个接收器。 在另一个实施例中，可以从多个可用的星座图动态地选择特定星座图，例如基于通信信道条件和/或生成数据的应用。

公开(公告)号：US09444598B2

公开(公告)日：2016-09-13

申请号：US14295445

申请日：2014-06-04

Applicant: Cisco Technology, Inc.

Inventor： Sateesh K. Addepalli ,  Kevin C. Lee ,  Raghuram S. Sudhaakar ,  Jean-Philippe Vasseur ,  Flavio Bonomi

IPC: H04L5/00 ,  H04L27/34 ,  H04L1/00

CPC classification number: H04L5/005 ,  H04L1/007 ,  H04L1/0075 ,  H04L5/0055 ,  H04L27/345 ,  H04L27/3472

Abstract: In one embodiment, a device (e.g., a transmitter) determines a level of error protection of each bit position within symbols of a particular constellation map used for modulation-based communication, and also determines priority levels of application data bits to be placed into a communication frame. Application data bits may then be placed into symbols of the communication frame, where higher priority application data bits are placed into bit positions with greater or equal levels of protection than bit positions into which lower priority application data bits are placed. The communication frame may then be transmitted to one or more receivers with an indication of how to decode the placement of the application data bits within the symbols. In another embodiment, the particular constellation map may be dynamically selected from a plurality of available constellation maps, such as based on communication channel conditions and/or applications generating the data.

Abstract translation: 在一个实施例中，设备（例如，发射机）确定用于基于调制的通信的特定星座图的符号内的每个比特位置的错误保护的水平，并且还确定要被放入到基于调制的通信的应用数据比特的优先级 通讯框架 应用数据位然后可以被放置在通信帧的符号中，其中较高优先级的应用数据位被放置在与放置较低优先级应用数据位的位位置相比具有更大或相同保护级别的位位置中。 然后可以将通信帧发送到具有如何解码符号内的应用数据位的位置的指示的一个或多个接收器。 在另一个实施例中，可以从多个可用的星座图动态地选择特定星座图，例如基于通信信道条件和/或生成数据的应用。

公开(公告)号：US09654937B2

公开(公告)日：2017-05-16

申请号：US14664101

申请日：2015-03-20

Applicant: CISCO TECHNOLOGY, INC.

Inventor： Sateesh K. Addepalli ,  Raghuram S. Sudhaakar ,  Lillian Lei Dai ,  Vina Ermagan ,  Preethi Natarajan ,  Kevin C. Lee ,  Pere Monclus

IPC: H04L12/16 ,  H04W4/04 ,  H04W72/04 ,  H04W28/06 ,  H04W52/12 ,  G06F9/54 ,  H04W48/06 ,  H04W48/18 ,  B60W50/10 ,  G06F3/01 ,  G06F3/16 ,  H04L12/26 ,  H04L29/06 ,  H04W12/08 ,  G06F21/45 ,  H04W12/06 ,  H04W28/02 ,  H04W40/20 ,  H04W48/02 ,  H04L29/08 ,  B60R16/023 ,  H04L12/721 ,  H04L29/12 ,  H04W8/06 ,  H04W8/08 ,  H04W8/26 ,  H04W40/02 ,  H04L1/00 ,  H04W4/00 ,  H04W4/10 ,  H04W12/02 ,  H04W12/04 ,  H04W76/00 ,  H04W80/02 ,  H04W84/00 ,  H04W36/08 ,  H04W52/14 ,  H04W52/22 ,  H04W52/24 ,  H04W52/34 ,  H04W84/12 ,  H04W92/18

CPC classification number: H04W4/046 ,  B60R16/023 ,  B60W50/10 ,  G06F3/017 ,  G06F3/167 ,  G06F9/542 ,  G06F21/45 ,  H04L1/008 ,  H04L29/06578 ,  H04L43/0811 ,  H04L43/0858 ,  H04L43/0876 ,  H04L45/12 ,  H04L51/02 ,  H04L61/2592 ,  H04L63/08 ,  H04L63/107 ,  H04L67/12 ,  H04L67/32 ,  H04L69/18 ,  H04Q9/00 ,  H04W4/00 ,  H04W4/10 ,  H04W8/06 ,  H04W8/08 ,  H04W8/26 ,  H04W12/02 ,  H04W12/04 ,  H04W12/06 ,  H04W12/08 ,  H04W28/0215 ,  H04W28/06 ,  H04W36/08 ,  H04W40/02 ,  H04W40/20 ,  H04W48/02 ,  H04W48/06 ,  H04W48/16 ,  H04W48/18 ,  H04W52/12 ,  H04W52/143 ,  H04W52/225 ,  H04W52/241 ,  H04W52/346 ,  H04W72/0406 ,  H04W72/042 ,  H04W72/0493 ,  H04W76/45 ,  H04W80/02 ,  H04W84/005 ,  H04W84/12 ,  H04W92/18 ,  Y02A30/60

Abstract: A method includes selecting a path for routing a data packet from a source node to a destination node in a vehicular ad hoc network, storing the data packet if the selected path is identified as a dead end, and establishing a communication link with a first node. The method also includes forwarding the data packet to the first node if a first distance between the first node and the destination node is less than a second distance between the source node and the destination node. More specific embodiments include sending a query for location information of the destination node, receiving the location information including two or more available paths from the source node to the destination node, and determining the path for routing the data packet is an optimal path of the two or more available paths.

公开(公告)号：US20140129876A1

公开(公告)日：2014-05-08

申请号：US13668979

申请日：2012-11-05

Applicant: CISCO TECHNOLOGY, INC.

Inventor： Sateesh K. Addepalli ,  Raghuram S. Sudhaakar ,  Kevin C. Lee ,  Jean-Philippe Vasseur

IPC: G06F11/07

CPC classification number: G06F11/0709 ,  H04L41/064 ,  H04L41/0677 ,  Y04S40/166

Abstract: In one embodiment, the techniques herein provide that a node may receive indicia of a fault state in one or more components of a computer network. Based on the indicia, the node may then identify a network dependency group including a plurality of network components that are hierarchically associated with the one or more components. The node may then receive, from a database, a time series of performance data values corresponding to the network dependency group, wherein the time series comprises performance data values from before and after the onset of the fault state. The node may then identify altered performance data values in the time series comprising values which differ before and after onset of the fault state, and then determine a root cause of the fault state by identifying one or more particular components within the network dependency group that are associated with the altered performance data values.

Abstract translation: 在一个实施例中，这里的技术提供节点可以在计算机网络的一个或多个组件中接收故障状态的标记。 基于标记，节点可以然后识别包括与一个或多个组件分层关联的多个网络组件的网络依赖组。 节点然后可以从数据库接收对应于网络依赖组的时间序列的性能数据值，其中时间序列包括来自故障状态开始之前和之后的性能数据值。 节点可以随后识别包括在故障状态开始之前和之后不同的值的时间序列中的改变的性能数据值，然后通过识别网络依赖组内的一个或多个特定组件来确定故障状态的根本原因， 与改变的性能数据值相关联。

公开(公告)号：US09037896B2

公开(公告)日：2015-05-19

申请号：US13668979

申请日：2012-11-05

Applicant: Cisco Technology, Inc.

Inventor： Sateesh K. Addepalli ,  Raghuram S. Sudhaakar ,  Kevin C. Lee ,  Jean-Philippe Vasseur

IPC: G06F11/00 ,  G06F11/07

CPC classification number: G06F11/0709 ,  H04L41/064 ,  H04L41/0677 ,  Y04S40/166

Abstract: In one embodiment, the techniques herein provide that a node may receive indicia of a fault state in one or more components of a computer network. Based on the indicia, the node may then identify a network dependency group including a plurality of network components that are hierarchically associated with the one or more components. The node may then receive, from a database, a time series of performance data values corresponding to the network dependency group, wherein the time series comprises performance data values from before and after the onset of the fault state. The node may then identify altered performance data values in the time series comprising values which differ before and after onset of the fault state, and then determine a root cause of the fault state by identifying one or more particular components within the network dependency group that are associated with the altered performance data values.

Abstract translation: 在一个实施例中，这里的技术提供节点可以在计算机网络的一个或多个组件中接收故障状态的标记。 基于标记，节点可以然后识别包括与一个或多个组件分层关联的多个网络组件的网络依赖组。 节点然后可以从数据库接收对应于网络依赖组的时间序列的性能数据值，其中时间序列包括来自故障状态开始之前和之后的性能数据值。 节点可以随后识别包括在故障状态开始之前和之后不同的值的时间序列中的改变的性能数据值，然后通过识别网络依赖组内的一个或多个特定组件来确定故障状态的根本原因 与改变的性能数据值相关联。

公开(公告)号：US20150264554A1

公开(公告)日：2015-09-17

申请号：US14664101

申请日：2015-03-20

Applicant: CISCO TECHNOLOGY, INC.

Inventor： Sateesh K. Addepalli ,  Raghuram S. Sudhaakar ,  Lillian Lei Dai ,  Vina Ermagan ,  Preethi Natarajan ,  Kevin C. Lee ,  Pere Monclus ,  Robert Edward Somers

IPC: H04W8/06 ,  H04W8/26 ,  B60R16/023 ,  H04L12/721 ,  H04L29/12 ,  H04W8/08 ,  H04W40/02

CPC classification number: H04W4/046 ,  B60R16/023 ,  B60W50/10 ,  G06F3/017 ,  G06F3/167 ,  G06F9/542 ,  G06F21/45 ,  H04L1/008 ,  H04L29/06578 ,  H04L43/0811 ,  H04L43/0858 ,  H04L43/0876 ,  H04L45/12 ,  H04L51/02 ,  H04L61/2592 ,  H04L63/08 ,  H04L63/107 ,  H04L67/12 ,  H04L67/32 ,  H04L69/18 ,  H04Q9/00 ,  H04W4/00 ,  H04W4/10 ,  H04W8/06 ,  H04W8/08 ,  H04W8/26 ,  H04W12/02 ,  H04W12/04 ,  H04W12/06 ,  H04W12/08 ,  H04W28/0215 ,  H04W28/06 ,  H04W36/08 ,  H04W40/02 ,  H04W40/20 ,  H04W48/02 ,  H04W48/06 ,  H04W48/16 ,  H04W48/18 ,  H04W52/12 ,  H04W52/143 ,  H04W52/225 ,  H04W52/241 ,  H04W52/346 ,  H04W72/0406 ,  H04W72/042 ,  H04W72/0493 ,  H04W76/45 ,  H04W80/02 ,  H04W84/005 ,  H04W84/12 ,  H04W92/18 ,  Y02A30/60

Abstract: A method includes selecting a path for routing a data packet from a source node to a destination node in a vehicular ad hoc network, storing the data packet if the selected path is identified as a dead end, and establishing a communication link with a first node. The method also includes forwarding the data packet to the first node if a first distance between the first node and the destination node is less than a second distance between the source node and the destination node. More specific embodiments include sending a query for location information of the destination node, receiving the location information including two or more available paths from the source node to the destination node, and determining the path for routing the data packet is an optimal path of the two or more available paths.

Abstract translation: 一种方法包括：选择用于将数据分组从源节点路由到车辆ad hoc网络中的目的地节点的路径，如果所选路径被识别为死端，则存储数据分组，以及建立与第一节点的通信链路 。 如果第一节点和目的地节点之间的第一距离小于源节点和目的地节点之间的第二距离，则该方法还包括将数据分组转发到第一节点。 更具体的实施例包括发送对目的地节点的位置信息的查询，接收包括从源节点到目的地节点的两个或多个可用路径的位置信息，以及确定路由数据包的路径是两者的最佳路径 或更多可用路径。