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    • 2. 发明申请
    • Method and apparatus for multicast tunneling for mobile devices
    • 用于移动设备的组播隧道的方法和装置
    • US20050286455A1
    • 2005-12-29
    • US10875897
    • 2004-06-24
    • Lilian FernandesVinit JainVasu VallabhaneniVenkat Venkatsubra
    • Lilian FernandesVinit JainVasu VallabhaneniVenkat Venkatsubra
    • H04J3/24H04L12/18H04L12/28H04L12/56H04L29/06
    • H04L47/24H04L12/189H04L45/16H04W4/06H04W40/00H04W80/04
    • The present invention provides a method and apparatus for multicast tunneling for mobile devices. The method comprises receiving a multicast packet directed to a plurality of mobile nodes, the mobile nodes being associated with a home subnet and identifying if any of the plurality of the mobile nodes are coupled to a subnet other than the home subnet, wherein each of the identified mobile nodes has an associated transmission path through which that mobile node can be reached. The method further provides that in response to determining that at least some of the mobile nodes are coupled to the subnet other than the home subnet, determining which of the identified mobile nodes has a common next hop in their associated transmission path and generating a packet including at least a portion of the multicast packet and including in the packet a list of mobile nodes that have the common next hop. The method further provides for transmitting the generated packet to the common next hop.
    • 本发明提供一种用于移动设备的组播隧道的方法和装置。 所述方法包括:接收指向多个移动节点的多播分组,所述移动节点与归属子网相关联,并且识别所述多​​个所述移动节点中的任一个是否耦合到除所述归属子网之外的子网,其中, 识别的移动节点具有相关联的传输路径,通过该路径可以到达该移动节点。 该方法进一步规定,响应于确定至少一些移动节点被耦合到除了​​归属子网之外的子网,确定所识别的移动节点中哪一个在其相关联的传输路径中具有共同的下一跳,并且生成包括 所述多播分组的至少一部分并且在分组中包括具有公共下一跳的移动节点的列表。 该方法进一步提供将生成的分组发送到公共下一跳。
    • 6. 发明申请
    • Method and apparatus to reactivate TCP connection with sleeping peers
    • 重新激活与休眠对等体的TCP连接的方法和设备
    • US20050091331A1
    • 2005-04-28
    • US10682395
    • 2003-10-09
    • Deanna BrownLilian FernandesVinit JainVenkat Venkatsubra
    • Deanna BrownLilian FernandesVinit JainVenkat Venkatsubra
    • G06F15/16H04L12/12H04L29/06
    • H04L12/12H04L69/16H04L69/163Y02D50/40Y02D50/42
    • A method, apparatus, and computer instructions for reactivating an existing connection to a remote data processing system. A data packet is created using a previously acknowledged sequence number for the connection. The sequence number is used to uniquely number data bytes sent in a connection, such as a TCP connection. With this sequence number, devices and components, such as routers and fire walls will forward the packet to the destination. A special data sequence, such as a MAC address of the remote data processing system repeated a selected number of times, is placed in the data packet. This special data sequence causes the remote data processing system to wake up from a sleep mode when received by the remote data processing system. The data packet is sent to the remote data processing system using the existing connection. The use of a subnet directed broadcast is avoided. Thus, problems associated with routing wake up packets are avoided.
    • 一种用于重新激活与远程数据处理系统的现有连接的方法,装置和计算机指令。 使用先前确认的连接序列号创建数据包。 序列号用于唯一地编号连接中发送的数据字节,例如TCP连接。 使用此序列号,设备和组件(如路由器和防火墙)将将数据包转发到目的地。 特殊数据序列,例如重复所选次数的远程数据处理系统的MAC地址,被放置在数据包中。 该特殊数据序列使得远程数据处理系统在由远程数据处理系统接收时从睡眠模式唤醒。 使用现有连接将数据包发送到远程数据处理系统。 避免使用子网定向广播。 因此,避免与路由唤醒分组相关的问题。
    • 10. 发明授权
    • Method, system and article for rapid detection and avoidance of high data corrupting routes within a network
    • 用于快速检测和避免网络内高数据损坏路由的方法,系统和文章
    • US07394769B2
    • 2008-07-01
    • US10640819
    • 2003-08-14
    • Dwip N. BanerjeeVinit JainVasu VallabhaneniVenkat Venkatsubra
    • Dwip N. BanerjeeVinit JainVasu VallabhaneniVenkat Venkatsubra
    • H04J1/16
    • H04L1/0061H04L1/0072H04L1/08H04L1/16H04L1/1809H04L45/00H04L45/22H04L45/28H04L69/16H04L69/161H04L69/163H04L69/22H04L69/40
    • A receiving host in a TCP/IP network sends an acknowledgment indicating a received data packet is corrupt. The sending host will begin transmitting with a new field set in the IP header called a check-TCP-checksum bit, thereby requesting that all routers in the TCP/IP network perform a checksum on the entire received packet. Routers in the TCP/IP network will perform a complete checksum on an entire packet with the check-TCP-checksum bit set, and not just on the IP header. The routers continuously monitor the ratio of corrupt packets received on a particular port that fail the entire packet checksum to the total number of packets received on that port. If the ratio of corrupt-to-received packets exceeds a corruption threshold, the router assumes that the associated link is causing data corruption and issues a routing update indicating that the link is bad and should be avoided. Once the retransmission rate between the sender and receiver drops below a threshold level, the bad link has been detected and avoided within the TCP/IP network and the check-TCP-checksum option in the IP header is no longer set in data packets transmitted to the receiver host.
    • TCP / IP网络中的接收主机发送指示接收到的数据包已损坏的确认。 发送主机将开始使用称为检查TCP校验和位的IP报头中设置的新字段进行发送,从而请求TCP / IP网络中的所有路由器对整个接收到的数据包执行校验和。 TCP / IP网络中的路由器将对整个数据包执行完整的校验和,同时检查TCP-checksum位,而不仅仅是在IP报头上。 路由器连续监视在特定端口上接收的损坏数据包的总数与在该端口上接收的数据包的总数之间的比例。 如果损坏的数据包的比例超过了破坏阈值,则路由器假设相关联的链路导致数据损坏,并发出路由更新,指示链路不良,应该避免。 一旦发送方和接收方之间的重传速率下降到阈值以下,就会在TCP / IP网络内检测并避免不良链路,并且IP报头中的check-TCP-checksum选项不再被设置在发送到 接收主机。