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    • 1. 发明授权
    • Local path repair in a wireless deterministic network
    • 无线确定性网络中的本地路径修复
    • US09319962B2
    • 2016-04-19
    • US14043974
    • 2013-10-02
    • Patrick WetterwaldJean-Philippe VasseurPascal Thubert
    • Patrick WetterwaldJean-Philippe VasseurPascal Thubert
    • H04W40/04H04W72/04H04W40/34H04W40/38H04L12/721H04L12/707H04L12/703
    • H04W40/04H04L45/12H04L45/22H04L45/28H04W40/34H04W40/38H04W72/0446Y02D70/144Y02D70/32
    • In one embodiment, an initial path is established in a wireless deterministic network between a source and a destination through one or more intermediate nodes, which are typically informed of a required metric between the source and the destination for communicating a packet. The initial path is locally (e.g., without contacting a path computation engine) reconfigured to bypass at least one of the intermediate nodes creating a new path, with the new path meeting the requirement(s) of the metric. Note, “locally reconfiguring” refers to the network nodes themselves determining a replacement path without reliance on a path computation engine or other entity (e.g., network management system, operating support system) in determining the replacement path. In one embodiment, a network node not on the initial path replaces a node on the initial path while using the same receive and send timeslots used in the initial path.
    • 在一个实施例中,通过一个或多个中间节点在源和目的地之间的无线确定性网络中建立初始路径,所述中间节点通常被通知源和目的地之间用于传送分组的所需度量。 初始路径在本地(例如,不接触路径计算引擎)被重新配置为绕过创建新路径的至少一个中间节点,新路径满足度量的要求。 注意,“本地重新配置”是指网络节点本身在不依赖路径计算引擎或其他实体(例如,网络管理系统,操作支持系统))确定替换路径时确定替换路径。 在一个实施例中,不在初始路径上的网络节点替换初始路径上的节点,同时使用在初始路径中使用的相同的接收和发送时隙。
    • 2. 发明授权
    • Technique for efficient load balancing of TE-LSPs
    • TE-LSP高效负载均衡技术
    • US09306831B2
    • 2016-04-05
    • US11057641
    • 2005-02-14
    • Jean-Philippe Vasseur
    • Jean-Philippe Vasseur
    • H04L12/26G06F15/173H04L12/701H04L12/707H04L12/723
    • H04L45/00H04L45/24H04L45/502
    • A technique efficiently load balances traffic engineering (TE) label switched paths (LSPs) from a head-end node to a tail-end node of a computer network. The novel load balancing technique identifies (e.g., at the head-end node or a path computation element, PCE) a set of paths with equal costs from the head-end node to the tail-end node, where each path of the set is composed of one or more associated links. “Link values” such as, e.g., the number of unconstrained TE-LSPs on the link, the amount of available bandwidth on the link, or the percent of total available bandwidth already in use on the link, are applied to each link of each path. The most restrictive link values (link availability) of each path of the set, such as, e.g., the link with the lowest amount of available bandwidth, etc., are then compared. Upon comparing the link availability, the novel technique load balances established and/or new TE-LSPs from the head-end node to the tail-end node over the set of paths accordingly.
    • 技术有效地将流量工程(TE)标签交换路径(LSP)从头端节点负载平衡到计算机网络的尾端节点。 新颖的负载平衡技术在头端节点到尾端节点识别(例如,在头端节点或路径计算元件PCE)具有相同成本的路径集合,其中集合的每个路径为 由一个或多个相关联的链接组成。 “链路值”例如链路上的无约束TE-LSP的数量,链路上的可用带宽的数量或链路上已经使用的总可用带宽的百分比被应用于每个链路的每个链路 路径。 然后比较集合的每个路径的最严格的链路值(链路可用性),例如具有最低可用带宽量的链路等。 在比较链路可用性时,新技术相应地通过该组路径从前端节点到尾端节点建立和/或新的TE-LSP平衡。
    • 4. 发明授权
    • Dynamic multicast mode selection in a communication network
    • 通信网络中的动态组播模式选择
    • US09288066B2
    • 2016-03-15
    • US13293871
    • 2011-11-10
    • Jonathan W. HuiJean-Philippe Vasseur
    • Jonathan W. HuiJean-Philippe Vasseur
    • H04L12/28H04L12/18H04L12/751H04L12/721H04L12/761H04J1/16
    • H04L12/18H04L45/02H04L45/14H04L45/16
    • In one embodiment, a network device selectively operates according to a sparse multicast mode where the network device stores individual devices interested in one or more multicast groups and distributes corresponding multicast group traffic based on the individual devices. Alternatively, the network device selectively operates according to a dense multicast mode where the network device maintains a list of the one or more multicast groups in which at least one device is interested and distributes corresponding multicast group traffic through broadcasting. By determining one or more resource-related characteristics, the network device may then select between operation in the sparse multicast mode and the dense multicast mode based on the resource-related characteristics.
    • 在一个实施例中,网络设备根据稀疏多播模式选择性地操作,其中网络设备存储对一个或多个多播组感兴趣的各个设备,并且基于各个设备分发相应的多播组业务。 或者,网络设备根据密集组播模式选择性地操作,其中网络设备维护其中至少一个设备感兴趣的一个或多个多播组的列表,并且通过广播来分发对应的多播组业务。 通过确定一个或多个资源相关特征,网络设备然后可以基于资源相关特性在稀疏组播模式和密集组播模式之间进行选择。
    • 10. 发明授权
    • Reliable on-demand distributed data management in a sensor-actuator fabric
    • 传感器执行器结构中可靠的按需分布式数据管理
    • US09059929B2
    • 2015-06-16
    • US13524481
    • 2012-06-15
    • Raghuram S. SudhaakarSateesh K. AddepalliJean-Philippe Vasseur
    • Raghuram S. SudhaakarSateesh K. AddepalliJean-Philippe Vasseur
    • H04L12/56G06F17/30H04L12/761H04L12/753H04W40/20H04L12/725
    • H04L45/16H04L45/306H04L45/48H04W40/20
    • In one embodiment, a system comprises a plurality of minimalistic data collection nodes in a computer network, the minimalistic data collection nodes configured to generate sensed data values of a particular type and to communicate the data values within the computer network in substantially real-time using distributed data acquisition (DA) packets specific to the particular type of the data values. The system also comprises a plurality of capable data collection nodes in the computer network, the capable data collecting nodes configured to store the data values of the minimalistic data collection nodes from the DA packets. One or more points of use of the system may be configured to request the data values, wherein one or more particular capable data collection nodes of the system are configured to service the request in substantially real-time on behalf of the minimalistic data collection nodes with the stored data values.
    • 在一个实施例中,系统包括计算机网络中的多个简约数据收集节点,所述极简数据收集节点被配置为生成特定类型的感测数据值,并且基本上实时地使用计算机网络内的数据值传达 分布式数据采集(DA)数据包特定于特定类型的数据值。 该系统还包括计算机网络中的多个能力数据收集节点,能力数据收集节点被配置为从DA分组存储简约数据收集节点的数据值。 可以将系统的一个或多个使用点配置为请求数据值,其中系统的一个或多个特定能力的数据收集节点被配置为代表极简数据收集节点基本上实时地为该请求提供服务, 存储的数据值。