摘要:
A smart 3GDT schema has been disclosed, in detail, a method for controlling the communication of a network system has been disclosed. The network system comprises a UE, a NodeB, a RNC, a SGSN, and a GW. The UE is arranged to be in communication with the RNC via the NodeB, and the RNC is arranged to be in communication with the SGSN which in turn being arranged to be in communication with the GW for non-3GDT communication of the network system, or the RNC is arranged to be in communication with the GW for 3GDT communication of the network system. In this method, statistics of payload transferred between the UE and the GW has been monitored, and if the statistics of payload within a predetermined time period exceeds a first threshold, and the UE is in the non-3GDT communication, then switching the non-3GDT communication to the 3GDT communication. The present application has also disclosed the SGSN, GW, and the network system adaptive to perform the method.
摘要:
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.
摘要:
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.
摘要:
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).
摘要:
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.
摘要:
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).
摘要:
A method for transferring a data packet associated with a service from a packet data network to a mobile communication network, be characterized by comprising steps of: forming a message by adding either a service identifier (SI) for identifying the service or an indicator for indicating that the data packet is associated with the SI to the data packet, the SI corresponding to a session identifier for the data packet; and sending the message from the packet data network to the mobile communication network.
摘要:
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.
摘要:
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.
摘要:
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).