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    • 2. 发明授权
    • Differential clock recovery in packet networks
    • 分组网络中的差分时钟恢复
    • US07492732B2
    • 2009-02-17
    • US11294146
    • 2005-12-05
    • James AweyaMichel OuelletteDelfin MontunoKent Felske
    • James AweyaMichel OuelletteDelfin MontunoKent Felske
    • H04B7/212
    • H04J3/0658
    • Where a common network clock is available at both a TDM receiver and a TDM transmitter which communicate via a packet network, differential clock recovery can be accomplished by matching the number of service clock pulses in a network reference clock period at the transmitter and receiver. In one embodiment the transmitter need only send a counter value from a counter that is clocked and reset, respectively, by the service clock and network reference clock, thereby allowing use of different types of oscillators, both analog and digital, to be implemented at the transmitter and receiver. The technique is also general enough to be applied in a wide variety of packet networks including but not limited to IP, MPLS and Ethernet. In an alternative embodiment, a faster derived network clock fdnc drives both the transmitter and receiver counters, which in turn are reset, respectively by the slower transmitter service clock fsc and slower receiver service clock frc.
    • 在通过分组网络进行通信的TDM接收机和TDM发射机都可以使用公共网络时钟的情况下,差分时钟恢复可以通过在发射机和接收机的网络参考时钟周期内匹配服务时钟脉冲的数量来实现。 在一个实施例中,发射机仅需要通过服务时钟和网络参考时钟分别从计时器发送计数器值并将其复位,从而允许使用不同类型的模拟和数字振荡器来实现 发射机和接收机。 该技术也足以应用于各种分组网络,包括但不限于IP,MPLS和以太网。 在替代实施例中,更快的导出网络时钟fdnc驱动发射机和接收机计数器,发射机和接收机计数器又分别被较慢的发射机业务时钟fsc和较慢的接收机业务时钟frc复位。
    • 3. 发明申请
    • Three-way message exchange clock synchronization
    • 三路信息交换时钟同步
    • US20070097947A1
    • 2007-05-03
    • US11362697
    • 2006-02-27
    • James AweyaMichel OuelletteDelfin MontunoKent Felske
    • James AweyaMichel OuelletteDelfin MontunoKent Felske
    • H04J3/06
    • H04J3/065H04J3/0667
    • The invention includes a technique for clock recovery in a network having master and slave clocks in respective Time Division Multiplexing (“TDM”) network segments which are interconnected by a non-TDM segment. Master clock timestamps are sent to the slave. The slave measures a master clock timestamp inter-arrival interval, and sends slave clock timestamps to the master. The master measures a slave clock timestamp inter-arrival interval, and sends that slave clock timestamp inter-arrival interval to the slave. The slave then calculates an error signal based at least in-part on the difference between the master clock timestamp inter-arrival interval and the slave clock timestamp inter-arrival interval, and employs the difference to recover the first service clock in the second TDM segment.
    • 本发明包括一种用于在通过非TDM分段互连的相应时分复用(“TDM”)网段中的主时钟和从时钟的网络中的时钟恢复技术。 主时钟时间戳被发送到从站。 从站测量主时钟时间戳到达间隔时间,并向主机发送从时钟时间戳。 主机测量从时钟时间戳到达间隔时间,并将从属时钟时间戳到到达间隔发送到从机。 然后,从设备至少部分地基于主时钟间隔到达间隔和从时钟时间戳到达间隔之间的差异来计算误差信号,并且采用差异来恢复第二TDM段中的第一服务时钟 。
    • 6. 发明授权
    • Method and system for content detection and interception in communication networks
    • 通信网络中内容检测和拦截的方法和系统
    • US09064093B1
    • 2015-06-23
    • US10745065
    • 2003-12-22
    • Kent FelskeJames AweyaDelfin MontunoMichel Ouellette
    • Kent FelskeJames AweyaDelfin MontunoMichel Ouellette
    • G06F21/00
    • G06F21/00G06F21/16G06F2221/0788
    • A system in which data signatures are used to identify copyrighted content passing through a network. The data signatures are derived from files containing copyrighted content to be identified. The signatures are used to search within peer-to-peer data streams flowing through one or more network nodes in a communications network. Any specific technique may be used for pattern recognition between the signatures and the monitored traffic. When a particular file of interest is identified, the system may operate to perform one or more of several possible actions, including stopping the transmission, allowing the transmission but recording the event, making an offer to the recipient allowing them to legally purchase the file, or sending alternative information or intentionally corrupting the information to render it useless to the recipient.
    • 使用数据签名来识别经过网络的受版权保护的内容的系统。 数据签名是从包含要识别的受版权保护的内容的文件导出的。 这些签名用于在流经通信网络中的一个或多个网络节点的对等数据流中搜索。 任何具体技术可用于签名和被监视业务之间的模式识别。 当识别出感兴趣的特定文件时,系统可以操作以执行几种可能的动作中的一种或多种,​​包括停止传输,允许传输但记录事件,向接收者提供允许他们合法购买文件的提议, 或发送替代信息或故意破坏信息,使其对接收者无效。
    • 8. 发明授权
    • Adaptive jitter buffer control
    • 自适应抖动缓冲控制
    • US07359324B1
    • 2008-04-15
    • US10796321
    • 2004-03-09
    • Michel OuelletteDelfin MontunoJames AweyaKent Felske
    • Michel OuelletteDelfin MontunoJames AweyaKent Felske
    • H04L12/26
    • H04L43/087H04L43/0852
    • A method for dynamically adjusting jitter buffer size according to buffer fill dynamics is disclosed. In one embodiment, an upper threshold and lower threshold for the jitter buffer are identified, wherein the lower buffer threshold identifies a minimum desirable number of packets in the jitter buffer, and the upper buffer threshold identifies a maximum desirable number of packets in the jitter buffer. Operating characteristics of the jitter buffer are monitored to identify instances when the jitter buffer size falls below or exceeds the desired thresholds. When a threshold is crossed, the adaptive algorithm alters the playback offset time, by introducing or deleting packets into the transmission path, to allow the jitter buffer size to return to a desirable target size within the threshold boundaries.
    • 公开了一种根据缓冲区填充动态动态调整抖动缓冲区大小的方法。 在一个实施例中,识别抖动缓冲器的上阈值和下阈值,其中下缓冲器阈值标识抖动缓冲器中最小期望数量的分组,并且高缓冲器阈值识别抖动缓冲器中的最大期望数量的分组 。 当抖动缓冲区大小低于或超过所需阈值时,监视抖动缓冲区的操作特性以识别实例。 当超过阈值时,自适应算法通过将分组引入或删除到传输路径来改变播放偏移时间,以允许抖动缓冲器大小在阈值边界内返回到期望的目标大小。