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    • 1. 发明授权
    • Virtual private network based upon multi-protocol label switching adapted to measure the traffic flowing between single rate zones
    • 基于多协议标签交换的虚拟专用网络,适用于测量单速率区域之间流量的流量
    • US07668181B2
    • 2010-02-23
    • US10638518
    • 2003-08-11
    • Jean-François Le PennecAurélien BrunoDidier F. GiroirAline Fichou
    • Jean-François Le PennecAurélien BrunoDidier F. GiroirAline Fichou
    • H04L12/28
    • H04L12/1403H04L12/14
    • Virtual Private Network (VPN) dedicated to a customer using a physical transmission network based upon Multi-Protocol Label Switching (MPLS) technology including a plurality of Provider (P) devices and a plurality of Provider Edge (PE) devices, the customer owning at least two specific Customer Edge (CE) devices amongst a plurality of CE devices, a specific CE device being attached to a specific PE device and enabling the customer to gain access to any other CE device belonging to the same VPN, by the intermediary of PE devices to which are attached the CE devices. The VPN comprises several billing zones (10, 12, 14) being each defined by the application of a single flat rate. A PE device (18) belonging to each billing zone includes a virtual router (58, 60, 62) associated with each billing zone, two virtual routers being interconnected by a virtual circuit (38, 40, 42) transmitting all the traffic exchanged between the two associated billing zones so that the traffic flowing between the two billing zones can be measured and therefore precisely billed to the customer.
    • 基于多协议标签交换(MPLS)技术的使用物理传输网络的客户的虚拟专用网络(VPN),包括多个提供商(P)设备和多个提供者边缘(PE)设备,客户拥有 在多个CE设备中的至少两个特定的客户边缘(CE)设备,特定的CE设备被附加到特定的PE设备并且使客户能够通过PE的中介获得对属于同一VPN的任何其他CE设备的访问 设备连接到CE设备。 VPN包括几个计费区域(10,12,14),每个计费区域由应用单个统一费率定义。 属于每个计费区域的PE设备(18)包括与每个计费区域相关联的虚拟路由器(58,60,62),两个虚拟路由器由虚拟电路(38,40,42)互连,该虚拟路由器传输在 两个关联的计费区域,使得可以测量在两个计费区域之间流动的流量,并因此精确地向客户收费。
    • 2. 发明申请
    • Virtual Private Network Based upon Multi-Protocol Label Switching Adapted to Measure the Traffic flowing between single rate zones
    • 基于多协议标签交换的虚拟专用网络适用于测量单速率区域之间流量的流量
    • US20100158020A1
    • 2010-06-24
    • US12643534
    • 2009-12-21
    • Jean-François Le PennecAurélien BrunoDidier F. GiroirAline Fichou
    • Jean-François Le PennecAurélien BrunoDidier F. GiroirAline Fichou
    • H04L12/56
    • H04L12/1403H04L12/14
    • Virtual Private Network (VPN) dedicated to a customer using a physical transmission network based upon Multi-Protocol Label Switching (MPLS) technology including a plurality of Provider (P) devices and a plurality of Provider Edge (PE) devices, the customer owning at least two specific Customer Edge (CE) devices amongst a plurality of CE devices, a specific CE device being attached to a specific PE device and enabling the customer to gain access to any other CE device belonging to the same VPN, by the intermediary of PE devices to which are attached the CE devices. The VPN comprises several billing zones (10, 12, 14) being each defined by the application of a single flat rate. A PE device (18) belonging to each billing zone includes a virtual router (58, 60, 62) associated with each billing zone, two virtual routers being interconnected by a virtual circuit (38, 40, 42) transmitting all the traffic exchanged between the two associated billing zones so that the traffic flowing between the two billing zones can be measured and therefore precisely billed to the customer.
    • 基于多协议标签交换(MPLS)技术的使用物理传输网络的客户的虚拟专用网络(VPN),包括多个提供商(P)设备和多个提供者边缘(PE)设备,客户拥有 在多个CE设备中的至少两个特定的客户边缘(CE)设备,特定的CE设备被附加到特定的PE设备并且使客户能够通过PE的中介获得对属于同一VPN的任何其他CE设备的访问 设备连接到CE设备。 VPN包括几个计费区域(10,12,14),每个计费区域由应用单个统一费率定义。 属于每个计费区域的PE设备(18)包括与每个计费区域相关联的虚拟路由器(58,60,62),两个虚拟路由器由虚拟电路(38,40,42)互连,该虚拟路由器传输在 两个关联的计费区域,使得可以测量在两个计费区域之间流动的流量,并因此精确地向客户收费。
    • 3. 发明授权
    • Virtual private network based upon multi-protocol label switching adapted to measure the traffic flowing between single rate zones
    • 基于多协议标签交换的虚拟专用网络,适用于测量单速率区域之间流量的流量
    • US07983284B2
    • 2011-07-19
    • US12643534
    • 2009-12-21
    • Jean-François Le PennecAurélien BrunoDidier F. GiroirAline Fichou
    • Jean-François Le PennecAurélien BrunoDidier F. GiroirAline Fichou
    • H04L12/28
    • H04L12/1403H04L12/14
    • Virtual Private Network (VPN) dedicated to a customer using a physical transmission network based upon Multi-Protocol Label Switching (MPLS) technology including a plurality of Provider (P) devices and a plurality of Provider Edge (PE) devices, the customer owning at least two specific Customer Edge (CE) devices amongst a plurality of CE devices, a specific CE device being attached to a specific PE device and enabling the customer to gain access to any other CE device belonging to the same VPN, by the intermediary of PE devices to which are attached the CE devices. The VPN comprises several billing zones (10, 12, 14) being each defined by the application of a single flat rate. A PE device (18) belonging to each billing zone includes a virtual router (58, 60, 62) associated with each billing zone, two virtual routers being interconnected by a virtual circuit (38, 40, 42) transmitting all the traffic exchanged between the two associated billing zones so that the traffic flowing between the two billing zones can be measured and therefore precisely billed to the customer.
    • 基于多协议标签交换(MPLS)技术的使用物理传输网络的客户的虚拟专用网络(VPN),包括多个提供商(P)设备和多个提供者边缘(PE)设备,客户拥有 在多个CE设备中的至少两个特定的客户边缘(CE)设备,特定的CE设备被附加到特定的PE设备并且使客户能够通过PE的中介获得对属于同一VPN的任何其他CE设备的访问 设备连接到CE设备。 VPN包括几个计费区域(10,12,14),每个计费区域由应用单个统一费率定义。 属于每个计费区域的PE设备(18)包括与每个计费区域相关联的虚拟路由器(58,60,62),两个虚拟路由器由虚拟电路(38,40,42)互连,该虚拟路由器传输在 两个关联的计费区域,使得可以测量在两个计费区域之间流动的流量,并因此精确地向客户收费。
    • 7. 发明授权
    • Flow control for very bursty connections in high speed cell switching
networks
    • 用于高速小区交换网络中非常突发连接的流控制
    • US06072773A
    • 2000-06-06
    • US898057
    • 1997-07-22
    • Aline FichouPierre-Andre ForielFrancois KermarecLaurent Nicolas
    • Aline FichouPierre-Andre ForielFrancois KermarecLaurent Nicolas
    • H04L12/54H04L12/70H04L12/913H04L12/927H04Q11/04G08C15/00
    • H04L12/5695H04L47/724H04L47/805H04Q11/0478H04L2012/5614H04L2012/5636
    • In high speed cell switching networks, a Call Admission Control (CAC) procedure is performed on each connection according to a specified Traffic Descriptor. A mandatory parameter of the Traffic Descriptor is the Peak Cell Rate (PCR), associated with a Cell Delay Variation Tolerance (CDVT). Connections which specify a high CDVT value may potentially send into the network bursts of cells at a rate much higher than the declared Peak Cell Rate, which may lead to congestion in cell buffers of intermediate network nodes. Guaranteeing the Quality of Service (QoS) for such connections may require the reservation of a high amount of resources in the network, leading to poor utilization of those resources. A Call Admission Control procedure, associated with an Usage Parameter Control/Network Parameter Control mechanism, provides:accepting not bursty connections and guaranteeing the Quality of Service requested at connection setup,accepting very bursty connections and guaranteeing a minimal Quality of Service rather than simply rejecting them,protecting the network from potentially too bursty traffic,determining a bandwidth reservation method based on a Mean Burst Length,for every connection, minimizing the bandwidth reservation while satisfying the required Quality of Service.
    • 在高速小区交换网络中,根据指定的业务描述符,在每个连接上执行呼叫接纳控制(CAC)过程。 流量描述符的强制参数是峰值信元速率(PCR),与信元延迟变化容差(CDVT)相关联。 指定高CDVT值的连接可能潜在地以比所声明的峰值信元速率高得多的速率发送到信元的网络脉冲串,这可能导致中间网络节点的信元缓冲器中的拥塞。 确保这种连接的服务质量(QoS)可能需要在网络中预留大量的资源,导致这些资源的利用率较低。 与使用参数控制/网络参数控制机制相关联的呼叫接纳控制程序提供:不接受突发连接并保证在连接建立时所请求的服务质量,接受非常突发的连接并保证最低服务质量,而不是简单地拒绝 他们,保护网络免受潜在的突发性流量,为每个连接确定基于平均突发长度的带宽预留方法,使带宽预留最小化,同时满足所需的服务质量。
    • 9. 发明申请
    • Method and system for assembling segmented frames of data transmitted over a backbone network
    • 用于组合通过骨干网传输的数据分段帧的方法和系统
    • US20050117577A1
    • 2005-06-02
    • US11030298
    • 2005-01-07
    • Aline FichouClaude GalandJacques FieschiJean-Francoise Pennec
    • Aline FichouClaude GalandJacques FieschiJean-Francoise Pennec
    • H04L12/46H04L29/06H04L12/56
    • H04L29/06H04L12/4604H04L69/08H04L69/16H04L69/22H04L2212/00
    • A method and system of transmitting data frames from a sending unit (10) to a receiving unit (12) in a data transmission network comprising at least a backbone (14) wherein the data are transmitted over high speed links enabling long Maximum Transmission Units (MTU) between an ingress node (18) connected to the sending unit by a first access link (16) and an egress node (22) connected to the receiving node by a second access link (20), with at least one of the first and second access links being a low speed access link requiring the data frames to be segmented into short MTUs between the sending unit and the ingress node and between the egress node and the receiving unit. A plurality of consecutive segmented data frames (28) belonging to the same flow of data transmitted from the sending unit to the ingress node are assembled by the ingress node into an assembled data frame (30) corresponding to the long MTU, the assembled data frame is transmitted over the backbone from the ingress node to the egress node at a high speed authorized by the backbone links, and the assembled data frame is de-assembled into consecutive segmented data frames (32) corresponding to the short MTUs by the egress node before being transmitted to the receiving unit.
    • 一种将数据帧从发送单元(10)发送到至少包括主干(14)的数据传输网络中的接收单元(12)的方法和系统,其中所述数据通过高速链路传输,从而能够实现长的最大传输单元 在由第一接入链路(16)连接到发送单元的入口节点(18)和通过第二接入链路(20)连接到接收节点的出口节点(22)之间的MTU中,至少一个第一接入链路 并且第二接入链路是低速接入链路,需要将数据帧分段成发送单元和入节点之间以及出口节点与接收单元之间的短MTU。 属于从发送单元向入口节点发送的相同数据流的多个连续分段数据帧(28)由入口节点组装成对应于长MTU的组合数据帧(30),组合数据帧 以骨干链路授权的高速通过骨干网从入口节点传送到出口节点,组装好的数据帧在出口节点之前被去组装成与出口节点对应的短MTU的连续分段数据帧(32) 被发送到接收单元。
    • 10. 发明授权
    • Network capacity planning based on buffers occupancy monitoring
    • 基于缓冲区占用监控的网络容量规划
    • US06690646B1
    • 2004-02-10
    • US09603710
    • 2000-06-27
    • Aline FichouClaude GalandJean-Francois Le Pennec
    • Aline FichouClaude GalandJean-Francois Le Pennec
    • H04L1254
    • H04L43/0882H04L41/0896H04L43/0829H04L43/0852H04L43/0858H04L43/087H04L43/16H04L2012/5623H04L2012/5626H04L2012/5681H04Q11/0478
    • A method and a system of network capacity planning for use in a high speed packet switching network. The network comprises a plurality of switching nodes interconnected through a plurality of communication links, each of the switching nodes comprises means for switching packets from at least one input link to at least one output link. Each of the output links is coupled to at least one buffer in the switching node for queuing packets before they are transmitted over the output link. In each of the switching nodes and for each of the output links, a time distribution of the occupancy of each buffer during a predetermined monitoring time period is measured, and stored in a centralized memory location. Then, the buffer occupancy time distribution data are retrieved from the centralized memory location in all the switching nodes, gathered and stored in a network dedicated server. These buffer occupancy time distribution data for all the nodes are transmitted from the dedicated network server to a network monitoring center. In the network monitoring center, the buffer occupancy time distribution data are integrated on a larger time scale, and stored. Finally, the integrated buffer occupancy time distribution data are used to apply network capacity planning actions to the network resources.
    • 一种用于高速分组交换网络的网络容量规划方法和系统。 网络包括通过多个通信链路互连的多个交换节点,每个交换节点包括用于将分组从至少一个输入链路切换到至少一个输出链路的装置。 每个输出链路耦合到交换节点中的至少一个缓冲器,用于在分组在通过输出链路传输之前排队。 在每个交换节点和每个输出链路中,测量在预定监视时间段期间每个缓冲器的占用时间分布,并存储在集中式存储器位置。 然后,从所有交换节点的集中式存储单元检索缓冲器占用时间分布数据,收集并存储在网络专用服务器中。 这些用于所有节点的缓冲器占用时间分布数据从专用网络服务器发送到网络监控中心。 在网络监控中心,将缓冲区占用时间分布数据集成在较大的时间尺度上,并进行存储。 最后,集成缓冲区占用时间分布数据用于将网络容量规划动作应用于网络资源。