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    • 3. 发明授权
    • Slow-start adaptive mechanisms to improve efficiency of bandwidth allocation
    • 缓慢启动自适应机制,提高带宽分配的效率
    • US08031601B2
    • 2011-10-04
    • US12188239
    • 2008-08-08
    • Azeem FerozWei-Lung LaiJames J. Stabile
    • Azeem FerozWei-Lung LaiJames J. Stabile
    • H04L12/26
    • H04L47/10H04L47/193H04L47/283H04L47/37
    • Methods, apparatuses and systems directed to improving the efficiency of bandwidth allocation schemes by adapting to slow-start mechanisms associated with network communications protocols, such as the TCP/IP protocol suite. In one implementation, the present invention scales down the initial target rate assigned to a data flow to a fraction of an initial estimate of the effective rate capacity of the communications path between two hosts. As packets are received, the target rate is gradually increased, eventually up to the detected rate capacity of the communications path. Implementations of the present invention improve the efficiency of bandwidth allocation by reducing the over-allocation of bandwidth to data flows during the slow-start phase, leaving more bandwidth available to other data flows.
    • 旨在通过适应与诸如TCP / IP协议组之类的网络通信协议相关联的慢启动机制来改进带宽分配方案的效率的方法,装置和系统。 在一个实现中,本发明将分配给数据流的初始目标速率缩小到两个主机之间的通信路径的有效速率容量的初始估计的一小部分。 当接收到分组时,目标速率逐渐增加,最终达到通信路径的检测速率容量。 本发明的实现通过在慢启动阶段减少对数据流的带宽的过度分配来提高带宽分配的效率,为其他数据流留下更多带宽。
    • 4. 发明授权
    • Slow-start adaptive mechanisms to improve efficiency of bandwidth allocation
    • 缓慢启动自适应机制,提高带宽分配的效率
    • US07426181B1
    • 2008-09-16
    • US10810785
    • 2004-03-26
    • Azeem FerozWei-Lung LaiJames J. Stabile
    • Azeem FerozWei-Lung LaiJames J. Stabile
    • G01R31/08
    • H04L47/10H04L47/193H04L47/283H04L47/37
    • Methods, apparatuses and systems directed to improving the efficiency of bandwidth allocation schemes by adapting to slow-start mechanisms associated with network communications protocols, such as the TCP/IP protocol suite. In one implementation, the present invention scales down the initial target rate assigned to a data flow to a fraction of an initial estimate of the effective rate capacity of the communications path between two hosts. As packets are received, the target rate is gradually increased, eventually up to the detected rate capacity of the communications path. Implementations of the present invention improve the efficiency of bandwidth allocation by reducing the over-allocation of bandwidth to data flows during the slow-start phase, leaving more bandwidth available to other data flows.
    • 旨在通过适应与诸如TCP / IP协议组之类的网络通信协议相关联的慢启动机制来改进带宽分配方案的效率的方法,装置和系统。 在一个实现中,本发明将分配给数据流的初始目标速率缩小到两个主机之间的通信路径的有效速率容量的初始估计的一小部分。 当接收到分组时,目标速率逐渐增加,最终达到通信路径的检测速率容量。 本发明的实现通过在慢启动阶段减少对数据流的带宽的过度分配来提高带宽分配的效率,为其他数据流留下更多带宽。
    • 5. 发明授权
    • Modulation of partition parameters achieving delay-based QoS mechanism
    • 调制分区参数实现基于延迟的QoS机制
    • US07551623B1
    • 2009-06-23
    • US11048033
    • 2005-01-31
    • Azeem FerozJames J. StabileWei-Lung Lai
    • Azeem FerozJames J. StabileWei-Lung Lai
    • H04L12/28
    • H04L47/562H04L41/0896H04L41/5009H04L43/0858H04L43/16H04L47/50H04L47/522
    • Methods, apparatuses and systems directed to an adaptive partitioning mechanism responsive to observed latency conditions in a communications network. Embodiments of the present invention can be configured to adapt to changing network conditions and ensure that selected network applications meet desired QoS levels. In one implementation, the present invention provides a mechanism that adjusts the minimum bandwidth setting corresponding to a given partition in response to observed latency. According to one implementation, a latency threshold is configured relative to local queuing latency or a latency metric corresponding to the network itself. A process modulates the minimum bandwidth setting associated with one or more partitions in response to observed latency relative to the configured threshold.
    • 针对响应于通信网络中观察到的等待时间状况的自适应分区机制的方法,装置和系统。 本发明的实施例可以被配置为适应不断变化的网络条件并且确保所选择的网络应用满足期望的QoS等级。 在一个实现中,本发明提供一种机制,其响应于观察到的等待时间来调整对应于给定分区的最小带宽设置。 根据一个实施方案,相对于本地排队延迟或与网络本身对应的等待时间度量来配置延迟阈值。 响应于相对于配置的阈值的观察到的延迟,过程调制与一个或多个分区相关联的最小带宽设置。
    • 6. 发明申请
    • Slow-Start Adaptive Mechanisms to Improve Efficiency of Bandwidth Allocation
    • 缓慢启动自适应机制以提高带宽分配的效率
    • US20080298391A1
    • 2008-12-04
    • US12188239
    • 2008-08-08
    • Azeem FerozWei-Lung LaiJames J. Stabile
    • Azeem FerozWei-Lung LaiJames J. Stabile
    • H04J3/16
    • H04L47/10H04L47/193H04L47/283H04L47/37
    • Methods, apparatuses and systems directed to improving the efficiency of bandwidth allocation schemes by adapting to slow-start mechanisms associated with network communications protocols, such as the TCP/IP protocol suite. In one implementation, the present invention scales down the initial target rate assigned to a data flow to a fraction of an initial estimate of the effective rate capacity of the communications path between two hosts. As packets are received, the target rate is gradually increased, eventually up to the detected rate capacity of the communications path. Implementations of the present invention improve the efficiency of bandwidth allocation by reducing the over-allocation of bandwidth to data flows during the slow-start phase, leaving more bandwidth available to other data flows.
    • 旨在通过适应与诸如TCP / IP协议组之类的网络通信协议相关联的慢启动机制来改进带宽分配方案的效率的方法,装置和系统。 在一个实现中,本发明将分配给数据流的初始目标速率缩小到两个主机之间的通信路径的有效速率容量的初始估计的一小部分。 当接收到分组时,目标速率逐渐增加,最终达到通信路径的检测速率容量。 本发明的实现通过在慢启动阶段减少对数据流的带宽的过度分配来提高带宽分配的效率,为其他数据流留下更多带宽。
    • 9. 发明申请
    • METHOD AND APPARATUS FOR APPLICATION AWARENESS IN A NETWORK
    • 网络中应用意识的方法和设备
    • US20140230008A1
    • 2014-08-14
    • US13767686
    • 2013-02-14
    • Azeem FerozBinyuan ChenAmit Chopra
    • Azeem FerozBinyuan ChenAmit Chopra
    • H04L29/06
    • H04L63/0263G06F21/44G06F21/554H04L63/0218H04L63/10H04L63/1416H04L63/1441H04L63/166H04L63/168H04L63/20
    • A method for enforcing a network policy is described herein. In the method, a network socket event request from an application executing in a first context is intercepted by an agent prior to the request reaching a transport layer in the first context. A context refers to virtualization software, a physical computer, or a combination of virtualization software and physical computer. In response to the interception of the request, the agent requests a decision on whether to allow or deny the network socket event request to be communicated to a security server executing in a second context that is distinct from the first context. The request for a decision includes an identification of the application. The agent then receives from the security server either an allowance or a denial of the network socket event request, the allowance or denial being based at least in part on the identification of the application and a security policy. The agent blocks the network socket event from reaching the transport layer when the denial is received from the security server. In one embodiment, the method is implemented using a machine readable medium embodying software instructions executable by a computer.
    • 本文描述了一种用于执行网络策略的方法。 在该方法中,来自在第一上下文中执行的应用的网络套接字事件请求在请求到达第一上下文中的传输层之前由代理截获。 上下文是指虚拟化软件,物理计算机或虚拟化软件和物理计算机的组合。 响应于该请求的截取,代理请求关于是否允许或拒绝网络套接字事件请求被传送到在与第一上下文不同的第二上下文中执行的安全服务器的决定。 决定的请求包括应用程序的标识。 代理然后从安全服务器接收对网络套接字事件请求的允许或拒绝,所述允许或拒绝至少部分地基于应用的标识和安全策略。 当从安全服务器接收到拒绝时,代理阻止网络套接字事件到达传输层。 在一个实施例中,该方法使用体现可由计算机执行的软件指令的机器可读介质实现。
    • 10. 发明授权
    • Application-aware rate control
    • 应用感知速率控制
    • US07869366B1
    • 2011-01-11
    • US11726552
    • 2007-03-22
    • Suresh MuppalaAzeem Feroz
    • Suresh MuppalaAzeem Feroz
    • H04J1/16
    • H04L47/10H04L47/193H04L47/20H04L47/25H04L47/27
    • A method for controlling data rate at an application layer. The method, in a particular implementation, includes identifying an application-layer message corresponding to a network application, wherein the application-layer message is transmitted in a first direction from a first host to a remote host and is operable to cause the remote host to transmit one or more responsive messages to the first host. A queuing delay is computed for the application-layer message and transmission of the application-layer message across a link to the remote host is delayed according to the queuing delay wherein the computed queuing delay is based at least in part on utilization of the link in a direction opposite the first direction of network traffic corresponding to the network application.
    • 一种用于控制应用层数据速率的方法。 该方法在特定实现中包括识别与网络应用相对应的应用层消息,其中应用层消息在第一方向从第一主机发送到远程主机,并且可操作以使远程主机 将一个或多个响应消息发送到第一主机。 针对应用层消息计算排队延迟,并且根据排队延迟延迟跨越到远程主机的链路的应用层消息的传输,其中所计算的排队延迟至少部分地基于链路的利用率 与网络应用相对应的网络流量的第一方向相反的方向。