TH65597A - The WLAN is a logical support node for the hybrid interconnection between WLANs and mobile communication systems. - Google Patents

Abstract

A method has been prepared for supporting work between them. Between the area network Local wireless (WLAN) and mobile communications networks Mobile communication networks, such as the UMTS network, have a common packet radio service support node (GPRS) (GGSN) and a GPRS service node (SGSN). Interoperability is facilitated by the function. Interoperability (IWF) methods consist of Installation of at least one (199) User-level tunnel A GPRS (GTP-U) tunneling method criteria between IWF and GGSN for data signal transmission. And installations (198) where at least one One level tunnel of control A method of making a GPRS tunnel (GTP-C) between GGSN and SGSN for the transmission of control signals.

Claims (2)

Disclaimer (all) which will not appear on the advertisement page: Edit 4/1/16 1. Method for supporting interoperability between wireless dedicated area network (WLAN) and mobile communication system. A mobile communications system comprising the UMTS Support Node Network (SGSN), the General Service Packet Radio (GPRS) service, is the first support node for the interconnection of the radio access network. Control the radio network (RNC) with the core network. And the GPRS gateway (GGSN) is the second support node for interconnecting a mobile communication system with a second communication system. Method which consists of steps of Providing an Interoperability (IWF) function in connection with WLAN and being connected to With mobile communication systems, IWF is placed on the WLAN side of the interoperability. Installation of at least one threshold method of GPRS GTP-U tunneling a user plane between IWF and a second support node for data transmission. Where at least one installation GPRS Tunneling Method GTP-U Plane Tunnel The user connects the IWF of the WLAN to the GGSN of the mobile communications network while passing through the RNC and the SGSN of the mobile communications network and at least one installation criteria. Make a GPRS GTP-C tunnel, the control plane between the first support node and the second support node for the transfer of control signals 2. Claim 1 method, where the IWF is logically configured as the SGSN. 3. Method of claim 1 where the procedure for installing at least one such GTP-U tunnel consists of the procedure for determining the GTP tunnel in the GTP-U for at least one GTP-U tunnel. Context packet data methodology (PDP) in at least one of the GGSN and IWF 4. Claim Method 1, where at least one such GTP-C tunnel installation procedure includes the procedure. Of the GTP tunnel designation in GTP-C for at least one Radio Access Holders (RAB) 5. Method of claim 1 where the procedure for installing at least one such GTP-C tunnel includes the procedure for determining the GTP tunnel in GTP-C. For at least one Context, packet data method (PDP) with the same PDP address and access point name (APN) for tunnel management messages. 6. Claim Method 1 where GTP-C carries the mobile management function. GPRS 7. Method of claim 1 is also included. The procedure for providing access to both the WLAN and the mobile communication system through a single point of attachment comprising the GGSN 8. Claim Method 1 where core networks, including the GGSN and SGSN, and the method also This includes the process of maintaining the connection between user equipment (UE) and CN while blocking Information is provided to UE through at least one GTP-U tunnel between GGSN and IWF 9. The Claim 1 method also includes. User Equipment Certification (UE) by Mobile Communication Network The communication resulting from the certification process with the IWF through GGSN 1 0. Claim 1 method also includes the Clause 1 procedure. Registering a WLAN coverage area is a differential routing area (RA) with a mobile communication network and IWF addressing and tunnel endpoint identifiers (TEIDs) for the installation process. At least one such GTP-U tunnel when one of the request for a packet data method (PDP) of a PDP correction request was obtained from the user equipment (UE) 1 1. The claim method 1 also included. The procedure for using the GGSN as an external agent (FA) to control the movable UE and notifying the SGSN to install at least one GTP-U 1 tunnel 2. The Claim 1 method also includes the procedure for implementing the GGSN. Use the encryption that was used. By a mobile communication network for users connected to a WLAN ------------------------------------- ----------------- 1. How to support interoperability support. Between a wireless dedicated area network (WLAN) and mobile communication system Mobile communication system Which has one supporting node For connecting radio access networks with core work networks And a second support node for the mobile communication system interface. With the second communication system The method consists of steps of Preparation of Interoperability Function (IWF) together with WLAN and connect to the system. Mobile communication Installation of at least one user-level tunnel criterion for tunneling between the IWF and the second support node. For the transmission of data signals and to install at least one user-level tunnel, the criterion for tunneling between the first support node and the second support node. For the transmission of control signals 2. Method of claim 1, where the mobile communication network consists of the UMTS network, one supporting node consists of a supporting node for general service packet radio (GPRS) access. (SGSN) The second support node consists of a GPRS support node (GGSN), a user-level tunnel, a user-level tunnel, a GPRS tunneling protocol (GTP-U), and a control threshold level. Tunneling method consists of tunneling level control, GPRS tunneling method criteria (GTP-C) 3. Method of claim 2, where the IWF is logical SGSN-defined in the data signal segment 4. Method Of claim 2 where the steps of installing at least one such GTP-U tunnel consist of the steps of defining the tunnel in the GTP-U for at least one context. Consolidated Information Methodology (PDP) in at least one of the GGSN and IWF 5. Claim Method 2, where at least one such GTP-C tunnel installation phase consists of a determination procedure. Tunnel in GTP-C for at least one radio access holder (RAB) 6. Method of claim 2 where the procedure for installing at least one such GTP-C tunnel consists of the tunnel assignment procedure. In GTP-C for at least one context. The aggregate data method (PDP) with the PDP address is the same and the access point name (APN) for the message. Tunnel Management 7. Clause 2 Method, where GTP-C carries the mobile GPRS management function 8. The claim 2 method is even more complementary. The process of preparing access to both the WLAN and the mobile communication system. Through a single point of adhesion This consists of GGSN 9. Claim Method 2 in which the core network is made up of GGSN and SGSN, and a more composite method. Stages of maintaining a connection between User equipment (UE) and CN, while blocking to UE through at least one GTP-U tunnel between GGSN and IWF 1 0. Claim 2 method where mobile communication network consists of Radio Network Controllers (RNC) and IWFs that are located on the WLAN side of interoperability and the process of installing at least one GTP-U tunnel is connected to the IWF of the WLAN to the GGSN of the mobile communications network. While the RND and SGSN bypass of the mobile communications network 1 1. The Claim 2 method is further enhanced by the process of user equipment certification (UE) by the mobile communication network. Communicating the results of the certification process to the IWF through GGSN 1 2. The Claim 2 method is further enhanced by the process of registering a WLAN coverage area as a differential routing area (RA) with a differentiated routing network (RA). Mobile communication and IWF addressing and tunnel end-point identifiers (TEIDs) for the installation process. At least one such GTP-U tunnel when one of the request for aggregate data methodology (PDP) of the PDP amendment request received from the User Equipment (UE) 1 3. The Claim 2 Method is enhanced by the procedure. Of using the GGSN as an external agent (FA) to control the movable UE and notifying the SGSN to install at least one of the GTP-U tunnels 1 4. The Clause 2 method is further enhanced by the procedure of which is used. The encryption used by Mobile communication network For connecting users to WLAN 1. 5. The machine is ready for supporting work between them. Between a wireless dedicated area network (WLAN) and a mobile communication network Mobile communication system with first supporting nodes For coordinating radio access with the core work network And a second support node for the interface of mobile communication systems. With a second communication system, the on-going interoperability is facilitated by the Interoperability Function (IWF). The prefabricated unit consists of a method for installing at least one tunnel user level tunneling method. Between the IWF and the second support node For the transfer of data signals and procedures for installation of at least one user-level tunnel, the criterion for tunneling between one support node. And the second supporting node For the transmission of control signals 1 6. The device completes claim 15 where the mobile communication network consists of a supporting node for General Service Packet Radio Access (GPRS) (SGSN). Consists of a GPRS support node (GGSN), a user-level tunnel, a user-level tunnel, a GPRS tunnel (GTP-U) tunnel, and a control tunnel. Regulating the GPRS Tunneling Method (GTP-C) 1 7. Claim Success 16 in which the IWF is logically rendered as a SGSN in Data Signal Section 1 8. Claim Success 16 in Where the method for installing at least one such GTP-U tunnel consists of a method for defining a tunnel in the GTP-U for at least one Context of aggregate data methodology (PDP) in at least one of the GGSN and IWF 1. 9. Success of Claim 16, where the method for installing at least one such GTP-C tunnel contains a method for determining. Tunnel in GTP-C for at least one person. Hold Radio Access (RAB) 2 0. Successful Claim 16 where a method for installing at least one such GTP-C tunnel contains a method for defining a tunnel in GTP-C for at least one. Aggregate data methodology (PDP) context with the same PDP address and access point name (APN) for tunnel management message 2. 1. The success of the claim 16 where GTP-C carries the mobile GPRS management function 2. 2. The success of claim 16 is also complemented by Methods for preparing access to both WLAN and mobile communication systems. Through a single point of adhesion Which contains GGSN