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    • 1. 发明申请
    • NETWORK CONNECTION DEVICE
    • 网络连接设备
    • WO2006044067A8
    • 2007-05-31
    • PCT/US2005032702
    • 2005-09-14
    • RIVULET COMMUNICATIONS INCROGERS STEVEN A
    • ROGERS STEVEN A
    • H04J3/16H01J3/22
    • H04L47/786H04L47/115H04L47/2491H04L47/50H04L47/56H04L47/626H04L47/70
    • A network connection device (505) bridges a first network (504) that uses a negotiated packet delivery scheduling scheme and a second network (503) that uses an empirically determined packet delivery scheduling scheme. The network connection device (505) translates a request to communicate over the first network (504) into a request to communicate over the second network (503), thus bridging the two networks. The negotiated packet delivery scheduling scheme permits endpoints (501, 502) to negotiate scheduled delivery times for packets, while the empirically determined packet delivery scheme tests various time interval locations in a network to determine favorable time locations for transmission. The two protocols are bridged by finding compatible overlaps between time interval locations in the two networks. This can provide error-free delivery with low jitter among packets.
    • 网络连接设备(505)桥接使用协商的分组传递调度方案的第一网络(504)和使用经验确定的分组传递调度方案的第二网络(503)。 网络连接设备(505)将通过第一网络(504)通信的请求转换为通过第二网络(503)通信的请求,从而桥接两个网络。 协商的分组递送调度方案允许端点(501,502)协商分组的调度递送时间,而经验确定的分组递送方案测试网络中的各种时间间隔位置以确定用于传输的有利时间位置。 通过在两个网络中的时间间隔位置之间找到兼容的重叠来桥接两个协议。 这可以提供无错误的传输,并且在数据包之间具有低抖动。
    • 2. 发明申请
    • ENDPOINT PACKET SCHEDULING SYSTEM
    • 端点分组调度系统
    • WO2005045597A2
    • 2005-05-19
    • PCT/US2004/031047
    • 2004-09-22
    • RIVULET COMMUNICATIONS INC.ROGERS, Steven, A.
    • ROGERS, Steven, A.
    • G06F
    • H04L49/351H04L12/407H04L12/417H04L47/50
    • A method of transmitting packets over a network includes steps of partitioning a transmission interval into discrete time slots and reaching agreement between a transmitting node and receiving node as to when the transmitting node will transmit packets. The intended receiving node sends a reception map to the transmitter indicating time slots that have not yet been allocated. The transmitter proposes a delivery schedule including time slots that it will use for transmission. After agreement by the receiving node, the transmitter transmits packets according to the agreed-upon schedule. Other transmitters can similar arrange to transmit during time slots not already allocated for the receiving node.
    • 一种通过网络发送分组的方法包括以下步骤:将发送间隔划分成离散时隙,并且在发送节点和接收节点之间达成发送节点将何时发送分组的协议。 预定接收节点向发射机发送指示尚未分配的时隙的接收映射。 发射机提出了一个传输时间表,其中包括将用于传输的时隙。 在接收节点同意之后,发射机根据协议的时间表发送分组。 其他发射机可以类似地安排在未被分配给接收节点的时隙内传输。
    • 8. 发明申请
    • NETWORK CONNECTION DEVICE
    • 网络连接设备
    • WO2006044067A1
    • 2006-04-27
    • PCT/US2005/032702
    • 2005-09-14
    • RIVULET COMMUNICATIONS, INC.ROGERS, Steven, A.
    • ROGERS, Steven, A.
    • H04J3/16H01J3/22
    • H04L47/786H04L47/115H04L47/2491H04L47/50H04L47/56H04L47/626H04L47/70
    • A network connection device (505) bridges a first network (504) that uses a negotiated packet delivery scheduling scheme and a second network (503) that uses an empirically determined packet delivery scheduling scheme. The network connection device (505) translates a request to communicate over the first network (504) into a request to communicate over the second network (503), thus bridging the two networks. The negotiated packet delivery scheduling scheme permits endpoints (501, 502) to negotiate scheduled delivery times for packets, while the empirically determined packet delivery scheme tests various time interval locations in a network to determine favorable time locations for transmission. The two protocols are bridged by finding compatible overlaps between time interval locations in the two networks. This can provide error-free delivery with low jitter among packets.
    • 网络连接设备(505)桥接使用协商的分组传递调度方案的第一网络(504)和使用经验确定的分组传递调度方案的第二网络(503)。 网络连接设备(505)将通过第一网络(504)通信的请求转换为通过第二网络(503)通信的请求,从而桥接两个网络。 协商的分组递送调度方案允许端点(501,502)协商分组的调度递送时间,而经验确定的分组递送方案测试网络中的各种时间间隔位置以确定用于传输的有利时间位置。 通过在两个网络中的时间间隔位置之间找到兼容的重叠来桥接两个协议。 这可以提供无错误的传输,并且在数据包之间具有低抖动。