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    • 3. 发明授权
    • IP fragmentation in GTP tunnel
    • GTP隧道中的IP分片
    • US08547979B2
    • 2013-10-01
    • US12980605
    • 2010-12-29
    • Wei GuLei GuoXiao LiDi LiuLirong SunQi Xia
    • Wei GuLei GuoXiao LiDi LiuLirong SunQi Xia
    • H04L12/28H04L12/56
    • H04L45/74H04L47/36H04W28/06H04W76/12H04W80/04
    • For improved IP fragmentation and transmission, user payload is transmitted through a transmission path enabled by at least a first established tunnel (17,18) and a second (17,18) established tunnel. The tunnels connect a first node (11, 13) and a second (11,13) node in a Packet Core Network (PCN). A method comprises the first node fragmenting (19) at least one received payload packet (15) into fragments (16) on the basis of a minimum Maximum Transmission Unit (MTU) for an upper IP layer of the transmission path; encapsulating (20) the fragments at the entry of the first tunnel, and, determining (21) the MTU for the upper IP layer of the transmission path on the basis of an MTU of a lower IP layer of the transmission path and on the basis of the size of at least one additional tunnel header for the encapsulated fragments (16).
    • 为了改善IP分段和传输,用户有效载荷通过至少由第一建立的隧道(17,18)和第二(17,18)建立的隧道启用的传输路径传输。 隧道连接分组核心网络(PCN)中的第一节点(11,13)和第二节点(11,13)。 一种方法包括:基于传输路径的上层IP的最小最大传输单元(MTU),第一节点将至少一个接收到的有效载荷分组(15)分片(15)分段成片段(16); 在第一隧道的入口处封装(20)片段,并且基于传输路径的较低IP层的MTU确定(21)传输路径的上层IP层的MTU,并且基于 (16)的至少一个附加隧道头的大小。
    • 4. 发明申请
    • ON IP FRAGMENTATION IN GTP TUNNEL
    • 关于GTP隧道中的IP分段
    • US20120155460A1
    • 2012-06-21
    • US12980605
    • 2010-12-29
    • Wei GULei GuoXiao LiDi LiuLirong SunQi Xia
    • Wei GULei GuoXiao LiDi LiuLirong SunQi Xia
    • H04L12/56
    • H04L45/74H04L47/36H04W28/06H04W76/12H04W80/04
    • The present invention relates to a method for improving IP fragmentation and transmission of user payload between a User Equipment, UE 10, and a Peer Node, PN 14. The payload is transmitted through a transmission path enabled by at least a first 17,18 and a second 17,18 established tunnel, said tunnels connecting a first 11, 13 and a second 11,13 node in a Packet Core Network, PCN. The method comprises the steps of: The first node 11,13 fragments 19 at least one received payload packet 15 into fragments 16 on the basis of a minimum Maximum Transmission Unit, MTU, for an upper IP layer of the transmission path. The first node 11,13 encapsulates 20 said fragments at the entry of the first tunnel 17,18. What particularly characterizes the method is that it further comprises a step where the first node 11,13 determines 21 the MTU for the upper IP layer of the transmission path on the basis of an MTU of a lower IP layer of the transmission path and on the basis of the size of at least one additional tunnel header for the encapsulated fragments 16.
    • 本发明涉及一种用于在用户设备,UE 10和对等体节点(PN)14之间改进用户有效载荷的IP分段和传输的方法。有效载荷通过至少第一个17,18和 第二个17,18建立的隧道,所述隧道连接分组核心网络PCN中的前11,13和第二11,13节点。 该方法包括以下步骤:基于传输路径的上层IP的最小最大传输单元MTU,第一节点11,13将至少一个接收到的有效载荷分组15分段成片段16。 第一节点11,13在第一隧道17,18的入口处封装20个所述片段。 该方法的特征在于它还包括一个步骤,其中第一节点11,13基于传输路径的较低IP层的MTU,确定21传输路径的上层IP的MTU,并且在 用于封装片段16的至少一个附加隧道头的大小的基础。
    • 5. 发明授权
    • IP fragmentation in GTP tunnel
    • GTP隧道中的IP分片
    • US09203751B2
    • 2015-12-01
    • US13996231
    • 2010-12-21
    • Wei GuLei GuoXiao LiDi LiuLirong SunQi Xia
    • Wei GuLei GuoXiao LiDi LiuLirong SunQi Xia
    • H04L12/28H04L12/56H04L12/741H04W28/06H04W76/02H04W80/04H04L12/805
    • H04L45/74H04L47/36H04W28/06H04W76/12H04W80/04
    • The present invention relates to a method for improving IP fragmentation and transmission of user payload between a User Equipment, UE (10), and a Peer Node, PN (14). The payload is transmitted through a transmission path enabled by at least a first (17,18) and a second (17,18) established tunnel, said tunnels connecting a first (11), (13) and a second (11, 13) node in a Packet Core Network, PCN. The method comprises the steps of: The first node (11,13) fragments (19) at least one received payload packet (15) into fragments (16) on the basis of a minimum Maximum Transmission Unit, MTU, for an upper IP layer of the transmission path. The first node (11,13) encapsulates (20) said fragments at the entry of the first tunnel (17, 18). What particularly characterizes the method is that it further comprises a step where the first node (11,13) determines (21) the MTU for the upper IP layer of the transmission path on the basis of an MTU of a lower IP layer of the transmission path and on the basis of the size of at least one additional tunnel header for the encapsulated fragments (16).
    • 本发明涉及一种用于改善用户设备,UE(10)和对等节点(PN)(14)之间的用户有效载荷的IP分段和传输的方法。 有效载荷通过至少第一(17,18)和第二(17,18)建立的隧道启用的传输路径传输,所述隧道连接第一(11),(13)和第二(11,13) 分组核心网络中的节点,PCN。 该方法包括以下步骤:第一节点(11,13)根据用于上层IP的最小最大传输单元MTU将至少一个接收到的有效载荷分组(15)分段(19)成片段(16) 的传输路径。 第一节点(11,13)在第一隧道(17,18)的入口处封装(20)所述碎片。 该方法的特征在于,其还包括步骤,其中第一节点(11,13)基于传输的较低IP层的MTU来确定(21)传输路径的上层IP的MTU 并且基于用于封装的片段(16)的至少一个附加隧道头部的大小。
    • 6. 发明授权
    • Method and node for automatically exchanging network service provider information
    • 自动交换网络服务提供商信息的方法和节点
    • US09203920B2
    • 2015-12-01
    • US13603630
    • 2012-09-05
    • Di LiuXiao LiRuth Pallares Del Egido
    • Di LiuXiao LiRuth Pallares Del Egido
    • G06F15/177H04L29/08
    • H04L67/28H04L67/327
    • A method is provided for automatically exchanging network service provider information between two sets of network service providers. The method comprises configuring at least one address of a proxy function of a second set of network service providers for a proxy function of a first set of network service providers; sending network service provider information of the first set of network service providers to the proxy function of the second set of network service providers with the at least one address of the proxy function of the second set of network service providers; and receiving network service provider information of the second set of network service providers from the proxy function of the second set of network service providers. The network service provider information includes information for addressing the network service provider and ID of service provided by the network service provider.
    • 提供了一种用于在两组网络服务提供商之间自动交换网络服务提供商信息的方法。 该方法包括为第一组网络服务提供商的代理功能配置第二组网络服务提供商的代理功能的至少一个地址; 将第一组网络服务提供商的网络服务提供商信息与第二组网络服务提供商的代理功能的至少一个地址发送到第二组网络服务提供商的代理功能; 以及从所述第二组网络服务提供商的代理功能接收所述第二组网络服务提供商的网络服务提供商信息。 网络服务提供商信息包括用于寻址网络服务提供商的信息和由网络服务提供商提供的服务的ID。
    • 7. 发明申请
    • IP FRAGMENTATION IN GTP TUNNEL
    • GTP隧道的IP分段
    • US20130279464A1
    • 2013-10-24
    • US13996231
    • 2010-12-21
    • Wei GuLei GuoXiao LiDi LiuLirong SunQi Xia
    • Wei GuLei GuoXiao LiDi LiuLirong SunQi Xia
    • H04L12/56
    • H04L45/74H04L47/36H04W28/06H04W76/12H04W80/04
    • The present invention relates to a method for improving IP fragmentation and transmission of user payload between a User Equipment, UE (10), and a Peer Node, PN (14). The payload is transmitted through a transmission path enabled by at least a first (17,18) and a second (17,18) established tunnel, said tunnels connecting a first (11), (13) and a second (11, 13) node in a Packet Core Network, PCN. The method comprises the steps of: The first node (11,13) fragments (19) at least one received payload packet (15) into fragments (16) on the basis of a minimum Maximum Transmission Unit, MTU, for an upper IP layer of the transmission path. The first node (11,13) encapsulates (20) said fragments at the entry of the first tunnel (17, 18). What particularly characterizes the method is that it further comprises a step where the first node (11,13) determines (21) the MTU for the upper IP layer of the transmission path on the basis of an MTU of a lower IP layer of the transmission path and on the basis of the size of at least one additional tunnel header for the encapsulated fragments (16).
    • 本发明涉及一种用于改善用户设备,UE(10)和对等节点(PN)(14)之间的用户有效载荷的IP分段和传输的方法。 有效载荷通过至少第一(17,18)和第二(17,18)建立的隧道启用的传输路径传输,所述隧道连接第一(11),(13)和第二(11,13) 分组核心网络中的节点,PCN。 该方法包括以下步骤:第一节点(11,13)根据用于上层IP的最小最大传输单元MTU将至少一个接收到的有效载荷分组(15)分段(19)成片段(16) 的传输路径。 第一节点(11,13)在第一隧道(17,18)的入口处封装(20)所述碎片。 该方法的特征在于,其还包括步骤,其中第一节点(11,13)基于传输的较低IP层的MTU来确定(21)传输路径的上层IP的MTU 并且基于用于封装的片段(16)的至少一个附加隧道头部的大小。
    • 9. 外观设计
    • Connector for data line
    • USD1016070S1
    • 2024-02-27
    • US29803856
    • 2021-08-16
    • Di Liu
    • Di Liu
    • FIG. 1 is a perspective view of a first embodiment of a connector for data line design showing my new design.
      FIG. 2 is a front view of a first embodiment of a connector for data line.
      FIG. 3 is a rear view of a first embodiment of a connector for data line.
      FIG. 4 is a left side view of a first embodiment of a connector for data line.
      FIG. 5 is a right side view of a first embodiment of a connector for data line.
      FIG. 6 is a top view of a first embodiment of a connector for data line.
      FIG. 7 is a bottom view of a first embodiment of a connector for data line.
      FIG. 8 is a perspective view of a second embodiment of a connector for data line.
      FIG. 9 is a front view of a second embodiment of a connector for data line.
      FIG. 10 is a rear view of a second embodiment of a connector for data line.
      FIG. 11 is a left side view of a second embodiment of a connector for data line.
      FIG. 12 is a right side view of a second embodiment of a connector for data line.
      FIG. 13 is a top view of a second embodiment of a connector for data line; and,
      FIG. 14 is a bottom view of a second embodiment of a connector for data line.
      Shading is not a feature of the design but is utilized to illustrate the surface contours of the connector for data line design in the drawings.
    • 10. 发明申请
    • REDUCING SIGNALING LOAD CAUSED BY CHANGES IN TERMINAL LOCATION
    • 减少由终端位置变化引起的信号负载
    • US20150148073A1
    • 2015-05-28
    • US14409569
    • 2012-07-10
    • Zhiwei QuYixin ChenWeiwei JiaDi LiuZuogang WangMeijuan Zheng
    • Zhiwei QuYixin ChenWeiwei JiaDi LiuZuogang WangMeijuan Zheng
    • H04W28/02H04W60/04H04W64/00
    • H04W28/0226H04L41/0816H04L41/0893H04W4/021H04W4/029H04W4/24H04W8/12H04W60/04H04W64/00H04W64/006H04W88/005H04W88/08
    • This disclosure is directed to a serving node (220) and a method in a serving node (220) for reducing signalling caused by changes of location of a radio terminal (230), which serving node is configured to be operatively comprised by a wireless communication system (200), and to operatively handle payload data for the radio terminal, and to operatively communicate with a gateway node (210) acting as an interface between the system and an external network (250). The method comprises the actions of: obtaining initial position information indicating an initial position for the radio terminal; obtaining boundary information based on the initial position information, which boundary information indicates a boundary area wherein at least one of a policy or a charging rule is to be applied for the radio terminal; obtaining current position information indicating the current position of the radio terminal; determining whether the radio terminal is inside or outside the boundary area based on the boundary information and the position information; providing mobility information, indicating the current position of the radio terminal, to the gateway node when the radio terminal is outside the boundary area and not providing mobility information to the gateway node when the radio terminal is inside the boundary area.
    • 本公开涉及服务节点(220)和服务节点(220)中用于减少由无线终端(230)的位置变化引起的信令的方法,该服务节点被配置为可操作地由无线通信 系统(200),并且可操作地处理无线电终端的有效载荷数据,以及与用作系统和外部网络(250)之间的接口的网关节点(210)可操作地通信。 该方法包括以下动作:获取表示无线终端的初始位置的初始位置信息; 基于初始位置信息获得边界信息,该边界信息指示要向无线终端应用策略或计费规则中的至少一个的边界区域; 获取表示无线终端的当前位置的当前位置信息; 基于所述边界信息和所述位置信息来确定所述无线电终端是在所述边界区域内还是在所述边界区域之外; 当所述无线终端在所述边界区域外时向所述网关节点提供指示所述无线终端的当前位置的移动性信息,并且当所述无线终端位于所述边界区域内时,不向所述网关节点提供移动性信息。