KR102069805B1 - Session management method and session management apparatus - Google Patents

Abstract

A session management method and session management apparatus are provided. This method is a session management method performed in a session management device operated by at least one processor, the session policy re-request transmitted from the packet gateway device connected via the terminal and the first network to the policy management device that manages the session policy Receiving a message, generating a notification message including event information that caused the session policy re-request message, and connecting with the terminal via the first network and at least one second network different from the first network And transmitting the notification message to a merge transmission gateway device providing a multi-network merge transmission service, wherein the notification message is configured to transmit the session policy re-request message from the merge transmission gateway device to the policy management device. Cause.

Description

Session management method and session management apparatus {SESSION MANAGEMENT METHOD AND SESSION MANAGEMENT APPARATUS}

The present invention relates to a session management method and an apparatus for managing a session.

In Long Term Evolution (LTE) system using Evolved Packet Core (EPC) network, session management function is performed by Packet Data Network Gateway (P-GW), and policy for session is Policy & Charging Rule Function, policy management device).

The P-GW exchanges the Credit Control Request (CCR) message with the PCRF, performs session creation, session update, and session deletion, and applies the policy provided from the PCRF to the session.

The P-GW exchanges CCR messages triggered from radio network events received from core network devices, mobility management entities (MMEs), and serving gateways (S-GWs) with the PCRF. Here, the wireless network event is generated due to, for example, the position movement of the terminal, the state change of the terminal (Idel, Active, etc.) when the terminal is turned on.

Meanwhile, recently released mobile communication terminals have not only mobile communication functions such as LTE but also short-range wireless communication functions such as Wi-Fi. As such, there is a proposed aggregation transmission technology in a heterogeneous network or a multi-network terminal environment.

The merge transmission technology is a technology for transmitting data using a plurality of communication networks at the same time. For example, data sent on each path is treated as a session. Through a merge transmission technology, a terminal may be connected to a plurality of communication networks at a time, and one service / application may merge and communicate a plurality of networks as one network regardless of the type of network or the number of networks. Therefore, the merge transmission system can quickly transmit and receive a large amount of data using a plurality of available network resources. In the sense of merging a plurality of networks, it may be referred to as multinet aggregation.

Multi-Net Aggregation GateWay (MA-GW) is located at the junction of heterogeneous or multi-network, and merges subflows transmitted through heterogeneous or multi-paths, or flows transmitted through a single path into multi-flow subflows. Split and send

In order for MA-GW to control and charge LTE packets, it must be linked with PCRF based on the Gx interface, which is a diameter-based protocol, which is a 3GPP (3rd Generation Partnership Project) standard. In order to trigger a CCR-U message requesting a session update with a PCRF or a CCR-T message requesting a session termination, event information occurring in a wireless network must be acquired. However, unlike the P-GW, the MA-GW is a device located in the Packet Data Domain (PDN). Therefore, the events occurring in the wireless network are unknown.

According to the 3GPP standard, when 3GPP Gx changes the wireless network information in the gateway, that is, P-GW and MA-GW, the 3GPP Gx transmits a CCR message including the changed wireless network information in each of the P-GW and MA-GW to the PCRF. Receive a new charging / control policy.

In the 3GPP standard, it is possible to specifi- cally to forward events from one interface between different interfaces to another interface. For example, an event generated in the P-GW may be transmitted to a bearer binding and event reporting function (BBERF).

However, since MA-GW is not a 3GPP standard equipment, event propagation between different interfaces is impossible. In addition, since there is no specification for event delivery between Gx-Gx using the same Gx interface as the P-GW, there is currently no way for the MA-GW to acquire an event generated in the P-GW.

An object of the present invention is to provide a method and session management apparatus for performing session management that allows a multi-network merge gateway device (MA-GW) to obtain event information in an LTE wireless network for LTE packet and billing control. will be.

According to one embodiment of the present invention, a session management method is a session management method performed in a session management device operated by at least one processor, and manages a session policy from a packet gateway device connected to a terminal through a first network. Receiving a session policy re-request message sent to a policy management device, generating a notification message containing event information that caused the session policy re-request message, and at least different from the first network and the first network Transmitting the notification message to a merge transmission gateway device connected to the terminal through one second network to provide a multi-network merge transmission service, wherein the notification message is configured to manage the policy from the merge transmission gateway device. Causes the sending of a session policy re-request message to the device.

The generating may include identifying second session information that matches first session information formed between the packet gateway device and the policy management device, and generating the notification message based on the second session information. The second session information may be formed between the merge transmission gateway device and the policy management device.

Prior to the receiving, the first session information is obtained based on information obtained from a first CCR-I message requesting a session policy transmitted from the packet gateway device to the policy management device. Generating the second session information based on information obtained from a second CCR-I message transmitted from the merge transmission gateway device to the policy management device, and generating the first session information and the second session information. Matching and storing session information may be further included.

The first session information and the second session information are divided into different APNs, and the different APNs are included in the first CCR-I message and allocated to a data session formed between the terminal and the packet gateway device. The first access point name (APN) and the second APN included in the second CCR-I message and allocated to a merge transmission session formed between the terminal and the merge transmission gateway device.

The first session information and the second session information include the same terminal information, and the same terminal information may be used to determine whether the first session information and the second session information match each other.

The first session information and the second session information are divided into different unique session identifiers, and the different unique session identifiers include a session policy re-request message and a first CCR-I generated from the packet gateway device. A second session commonly included in the message and assigned to the first session information, and commonly included in the session policy re-request message and the second CCR-I message generated from the merge transport gateway device; It may include a second session identifier assigned to the session information.

The second session identifier may be included in the notification message and used by the merge transmission gateway device to identify a session to which the notification message is applied.

The second session identifier includes source host information of the second CCR-I message, and may be used to determine the notification message transmission target among a plurality of merge transmission gateway devices.

The notification message includes at least two notification messages each including a different second session identifier, and the generating of the notification message comprises: a first session corresponding to the first session identifier extracted from the session policy re-request message; Confirming session information, identifying at least two second session information matching the first session information and having different second session identifiers based on the terminal information included in the first session information, and the at least Generating each of the at least two notification messages based on each of the two second session information.

The session policy re-request message includes a Credit Control Request-Update (CCR-U) message requesting an update of the session policy, and after receiving, a first message transmitted from the packet gateway device to the policy management device. Updating the first session information based on the CCR-U message, and after transmitting the notification message, a second CCR-U message transmitted from the merge transmission gateway device to the policy management device; The method may further include updating the second session information.

The session policy re-request message includes a Credit Control Request-Termination (CCR-T) message requesting termination of the session, and after the receiving, the first CCR- transmitted from the packet gateway device to the policy management device. And deleting the first session information based on a T message, and after transmitting the notification message, based on a second CCR-T message transmitted from the merge transmission gateway device to the policy management device. The method may further include deleting the second session information.

Prior to the receiving step, a DRA (Diameter Routing Agent) receives a first Credit Control Reqeust (CCR-I) message requesting a session policy from the packet gateway device, and the DRA receives the first CCR- message. Storing the network identifier, subscriber information, and data session information obtained from the I message, the DRA routing the first CCR-I message to the policy management device, and the DRA from the merge transport gateway device to the second Receiving a CCR-I message, obtaining, by the DRA, a network identifier of prestored data session information based on subscriber information obtained from the second CCR-I message; Including in a 2 CCR-I message and routing to the policy management apparatus, wherein the DRA comprises: the packet gateway apparatus, the merge transmission gate; Is associated with the device and the policy management unit, it may perform the CCR message routing.

According to another aspect of the invention, the session management method is a session management method performed in a multi-network merge gateway device operated by at least one processor, receiving a notification message from the session management device, and included in the notification message And transmitting a session policy re-request message triggered from the wireless network event to a policy management device managing session policy, wherein the wireless network event is configured to manage the policy from a packet gateway device connected to a terminal through a first network. It caused a session policy re-request message sent to the device.

Prior to the receiving step, if a request for creation of a merge transmission session of the terminal connected through the first network and at least one second network different from the first network is received, the CCR-I (Credit Control) to the policy management device. Reqeust-Initial) message, wherein the notification message is transmitted using session information between the merge transmission gateway device and the policy management device generated based on the information included in the CCR-I message. The session information may be matched with session information between the packet gateway device and the policy management device.

The transmitting may include extracting the wireless network event, terminal information, and session identifier from the notification message, determining a target session of the wireless network event based on the session identifier, and determining the determined session. And generating and transmitting the session policy re-request message requesting a policy.

According to yet another aspect of the present invention, a session management device includes a communication device, a memory for storing a program, and at least one processor for executing the program, wherein the program is transmitted from a packet gateway device to a policy management device. When the first session policy re-request message is received, the second session information matching the first session information between the packet gateway device and the policy management device is checked, and the first session policy re-request is based on the second session information. Instructions for generating a notification message including a wireless network event causing the request message and transmitting the notification message to the merged transmission gateway device, wherein the notification message is sent from the merged transport gateway device to the policy management device. Generate a second session policy re-request message.

The program may generate the first session information based on a first session policy request message transmitted from the packet gateway device to the policy management device when a data session is created between the terminal and the packet gateway device. And generating the second session information based on the second session policy request message transmitted from the merge transport gateway device to the policy management device when generating the merge transport session between the merge transport gateway devices.

The communication device interlocks with the policy management device and receives the first session policy request message, the second session policy request message, the first session policy re-request message, and the second session policy re-request message. And a second interface interworking with the merge transmission gateway device and transmitting the notification message.

The communication device interlocks with the packet gateway device, receives a first session policy request message and the first session policy re-request message, and interworks with the merge transmission gateway device, and the second session. And a second interface for receiving a policy request message and the second session policy re-request message and sending the notification message.

The communication device interoperates with the packet gateway device, receives a first session policy request message and the first session policy re-request message, a first interface for interworking with the merge transmission gateway device, and the second session policy. A second interface for receiving a request message and the second session policy re-request message and transmitting the notification message, and a third interface for interworking with the policy management device, wherein the program is received through the first interface Instructions for routing one message and messages received through the second interface to the third interface, and routing messages received through the third interface to the first or second interface, respectively. have.

According to an embodiment of the present invention, the MA-GW may acquire an event in the LTE wireless network and call a Gx message to the PCRF. Therefore, when the session update and session termination occurs, the MA-GW can efficiently manage the session, and when the session update occurs, the MA-GW can request a new charging / control policy to the PCRF.

In addition, the event set in the MA-GW uses the same Event-Trigger information of the 3GPP standard Gx, so that the MA-GW can be easily extended in the future.

1 is a view for explaining the configuration of a wireless communication system according to an embodiment of the present invention.
2 is a diagram illustrating a configuration of a session management system according to an embodiment of the present invention.
3 is a diagram illustrating a configuration of a session management system according to another embodiment of the present invention.
4 is a diagram illustrating a configuration of a session management system according to another embodiment of the present invention.
5 is a flowchart illustrating a series of procedures of a session management method according to an embodiment of the present invention.
6 is a flowchart illustrating a series of procedures of a session management method according to another embodiment of the present invention.
7 is a flowchart illustrating a series of procedures of a session management method according to another embodiment of the present invention.
8 is a flowchart illustrating a series of procedures of a session management method according to another embodiment of the present invention.
9 is a diagram illustrating a configuration of a session management system in which PCRF performs session management according to an embodiment of the present invention.
10 is a flowchart illustrating a series of procedures of a session management method according to an embodiment of FIG. 9.
11 is a flowchart illustrating a series of procedures of a session management method according to another embodiment of FIG. 9.
12 is a flowchart illustrating a series of procedures of a session management method according to another embodiment of FIG. 9.
13 is a diagram illustrating a configuration of a session management system in which a DRA performs session management according to another embodiment of the present invention.
14 is a flowchart illustrating a series of procedures of the session management method according to an embodiment of FIG. 13.
15 is a flowchart illustrating a series of procedures of a session management method according to another embodiment of FIG. 13.
16 is a flowchart illustrating a series of procedures of a session management method according to another embodiment of FIG. 13.
17 is a view for explaining the detailed configuration of the session management apparatus according to an embodiment of the present invention.
18 is a hardware block diagram of a session management system according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, except to exclude other components unless specifically stated otherwise. In addition, the terms “… unit”, “… unit”, “… module” described in the specification mean a unit that processes at least one function or operation, which may be implemented by hardware or software or a combination of hardware and software. Can be.

As used herein, "transmit or provide" may include not only direct transmission or provision but also transmission or provision indirectly through another device or by using a bypass path.

In the present specification, a terminal is a mobile station (MS), a mobile terminal (MT), a subscriber station (SS), a portable subscriber station (PSS), a user device (User Equipment (UE)). It may also refer to an access terminal (AT) and the like, and may include all or some functions of a mobile station, a mobile terminal, a subscriber station, a portable subscriber station, a user device, an access terminal, and the like.

The terminal of the present specification includes a base station (BS), an access point (Access Point, AP), a radio access station (Radio Access Station, RAS), a Node B (Node B), an advanced NodeB (evolved NodeB, eNodeB), A network device such as a base transceiver station (BTS), a mobile multihop relay (MMR) -BS, or the like may be connected to a remote server.

The base station (BS) is an access point (AP), a radio access station (RAS), a node B (Node B), a base transceiver station (BTS), a mobile multihop relay (MMR). ) -BS and the like, and may include all or part of the functions of an access point, a radio access station, a Node B, a base transceiver station, an MMR-BS, and the like.

Embodiments of the invention are supported by standard documents related to at least one of 3rd Generation Partnership Project (3GPP), 3GPP Long Term Evolution (LTE) and LTE-A, 3GPP2, and Institute of Electrical and Electronics Engineers (IEEE) systems. Can be. That is, steps or parts which are not described to clearly reveal the technical spirit of the present invention among the embodiments of the present invention may be supported by the above documents. In addition, all terms disclosed in the present document can be described by the above standard document.

In addition, the description will be made mainly for the 3GPP LTE system for clarity, but the technical spirit of the present invention is not limited thereto, and may be used in various wireless communication systems.

1 is a view for explaining the configuration of a wireless communication system according to an embodiment of the present invention.

Referring to FIG. 1, the terminal 100 may be a mobile terminal such as a smartphone, a tablet terminal such as a smart pad and a tablet PC, a computer, a television, or other various types of communication terminals, and may include a plurality of communication interfaces. The plurality of communication interfaces may vary. For example, the plurality of communication interfaces may include short-range wireless network interfaces such as Wi-Fi / WLAN (Wireless Local Area Network) / Bluetooth, and 3G / Long Term Evolution (LTE) / LTE-A (Long Term Evolution). Mobile communication network interface such as Advanced), and the terminal manufacturer may add various communication interfaces. In the present specification, the WiFi interface and the LTE interface will be described as an example, but the communication interface is not limited thereto.

The terminal 100 is equipped with a function of using a multinet aggregation service, and is connected to at least one network with a multi-net aggregation-gateway (MA-GW) 300 to transmit and receive data. do. The terminal 100 and the MA-GW 300 may generate a subflow in a plurality of networks. In the future, it is assumed that the first network is an LTE network and the second network is a WiFi network.

The MA-GW 300 is a network device that merges subflows transmitted through multiple paths or divides flows transmitted through a single path into subflows of multiple paths. The MA-GW 300 may be located at a contact point of a multiple network, for example, at a contact point of an LTE network and a WiFi network. The MA-GW 300 is directly connected to the internet network 400. The MA-GW 300 transmits the uplink data transmitted from the terminal 100 to the outside through the internet network 400. The MA-GW 300 directly receives the downlink data directed to the terminal 100 from the Internet network 400.

The MA-GW 300 divides the data to deliver the received data to the multiple communication interfaces of the terminal 100. The MA-GW 300 may transmit some data to the terminal 100 through the LTE network, and transmit the remaining data to the terminal 100 through the WiFi network. The terminal 100 merges the data received through the plurality of communication interfaces. In the same manner, the MA-GW 300 may merge the data transmitted by the terminal 100 using the multiple communication interface and transmit the merged data to the Internet network 400.

The high level architecture of LTE includes three main components, which will be described as including a terminal (UE) 100, an Evolved UMTS Terrestrial Radio Access Network (E-UTRAN) and an Evolved Packet Core (EPC) 200. Can be. Evolved Packet System (EPS) refers to E-UTRAN and EPC. Various interfaces such as S1-U, S1-MME, S5, S11, Gx, and SGi may be defined between EPS network elements.

The E-UTRAN is a wireless network connected to the terminal 100, and the wireless network includes an LTE base station (eNB).

The EPC 200 includes a Serving Gateway (S-GW) 201, a Packet Data Network Gateway (P-GW) 203, a Mobility Management Entity (MME) 205, and a Policy Control and Charging Rules (PCRF). Function (Policy Management Apparatus) 207 and Subscriber Profile Repository (SPR) 209.

The interface between the base station eNB and the S-GW 201 is S1-U, and the interface between the base station eNB and the MME 205 is S1-MME. The interface between the S-GW 201 and the P-GW 203 is S5, and the interface between the S-GW 201 and the MME 205 is S11. The interface of the P-GW 203 and the PCRF 207 is defined as Gx. The interface of the P-GW 203 and the MA-GW 300 is defined as SGi. The interface between the PCRF 207 and the MA-GW 300 is defined as Gx. Gx defines a control plane and is used to convey policy control rules and charging rules for quality of service (QoS) policies and charging controls. As such, defining the interface of the PCRF 207 and the P-GW 203 and the interface of the PCRF 207 and the MA-GW 300 with Gx is a 3GPP standard.

The interface between the P-GW 203 and the Internet network 400 and the interface between the MA-GW 300 and the Internet network 400 are defined as SGi.

PCRF 207 is an entity that performs policy and charging control and provides policy control decisions and charging control functions. Policy and Charging Control (PCC) rules generated at the PCRF 207 are forwarded to the P-GW 203.

Gx is an interface between the PCRF 207 and the P-GW 203, in which a control plane is defined and used for PCC rule delivery. For session management, the PCRF 207 and the P-GW 203 use a Credit Control Request (CCR) message, which is a Gx message.

Session management can be defined as a series of processes related to session creation, session update, and session deletion. The session creation may include a process of newly assigning an IP (Internet Protocol) address, such as when the terminal 100 is turned on.

The session update may include a process of updating a location registration in an area where the terminal 100 moves, a process of triggering a terminal related change event such as access network and state (Idle, Active) change, and the like.

The session deletion may include a process of releasing an assigned IP address, such as when the terminal 100 is turned off.

When creating a new session of the terminal 100, the P-GW 203 transmits a Credit Control Request-Initial (CCR-I) message to the PCRF 207 to query the policy of the session, and the CCA from the PCRF 207. -I (Credit Control Answer-Initial) message is responded to the session creation.

The PCRF 207 receives a Credit Control Request-Update (CCR-U) from the P-GW 203 to continuously manage whether a policy is applied to the created session, and the CC-U to the P-GW 203. Reply to the (Credit Control Answer-Update) message.

When deleting the session of the terminal 100, the P-GW 203 transmits a Credit Control Request-Termination (CCR-T) message to the PCRF 207, and the Credit Control Answer-Termination (CCA-T) from the PCRF 207. Receive a message and delete the session.

The MA-GW 300 may also control and charge LTE packets, like the P-GW 203, the PCRF 207, the CCR-I message, the CCA-I message, the CCR-U message, and the CCA-U. You must send and receive messages, CCR-T messages, and CCA-T messages. Since these Gx messages are triggered from a wireless network event, the MA-GW 300 must first acquire the wireless network event. The present invention describes various embodiments in which the MA-GW 300 acquires a wireless network event.

Here, the "Event-Trigger AVP" information described in 5.3.7 of the 3GPP TS 29.212 document may be used as a radio network event that triggers Gx messages, and is contained in a related field of the Gx message.

Hereinafter, the configuration and operation of a session management system that performs a series of procedures for the MA-GW 300 to acquire a wireless network event will be described. The session management system includes some of the components of the above-described wireless communication system that implement an embodiment of the present invention.

2 is a diagram illustrating a configuration of a session management system according to an embodiment of the present invention.

Referring to FIG. 2, the session management system 1 includes a P-GW 203, a MA-GW 300, a PCRF 207, an SPR 209, and a session management apparatus 500.

The interface of the P-GW 203 and the MA-GW 300 is defined as SGi. Here, SGi is an interface between the P-GW 203 and the PDN, and defines a user plane and a control plane. In the user plane, an Internet Engineering Task Force (IETF) based IP packet forwarding protocol is used. PDN is a public data network, for example, may be the Internet, IP network.

The interface between the PCRF 207 and the SPR 209 is defined as Sp. Sp is the control plane is defined and used to convey the user profile.

The SPR 209 may store a policy and charging rule for each terminal 100. Accordingly, the PCRF 207 may obtain information about the terminal 100 from the SPR 209. The SPR 209 provides the subscriber and subscription related information to the PCRF 207, and the PCRF 207 uses the subscriber and subscription related information to generate subscriber-based PCC rules.

The session management apparatus 500 is connected to the PCRF 207 and the MA-GW 300, respectively. The first interface between the session management apparatus 500 and the PCRF 207 and the second interface between the session management apparatus 500 and the MA-GW 300 may define an interface of a standard selected by an operator. In this case, an interface using a unique protocol defined by the operator may be adopted as the second interface.

The MA-GW 300 may trigger a CCR message to the PCRF 207. The MA-GW 300 is set with event-trigger information of the 3GPP standard Gx.

The MA-GW 300 transmits a CCR message to the PCRF 207 based on the set event trigger information.

The session management apparatus 500 is defined as a device that manages Gx session information. There are two Gx sessions. One is the first Gx session connected between the P-GW 203 and the PCRF 207 and assigned a data APN. The other is a second Gx session connected between MA-GW 300 and PCRF 207 and assigned MA APN. Here, the second Gx session may exist only when the first Gx session is established. APN is information for identifying a PDN to be connected in a mobile communication network, also called a PDN ID. The data APN may be defined as an APN allocated to a data session, and the MA APN may be defined as an APN allocated to a MA session.

Here, the data session is a session formed between the terminal 100-P-GW 203-P-GW 203-PCRF 207. The MA session is a session formed between MA-GW 300-PCRF 207. This MA session is a kind of virtual session that uses the 3GPP standard Gx function for charging and rate control for the LTE network packet among the merged packets delivered by the MA-GW 300. A data session must exist before a MA session can exist. In addition, a policy for charging / speed control of LTE network packets among merged packets should be obtained through a data session. Therefore, if a change occurs in the data session, the change must also be reflected in the MA session.

For example, it is assumed that when the terminal 100 is connected to the first eNB, a charging policy of 0.01 won per 1KB is applied, and when the terminal 100 is connected to the second eNB, a no-charge policy is applied. When the terminal 100 moves from the first eNB to the second eNB in the MA function activation state, the P-GW 203 transmits a CCR-U message to the PCRF 207. Then, the PCRF 207 transmits the CCA-U message to which the no-charge policy is applied to the P-GW 203 so that the P-GW 203 sets the no-charge policy.

At this time, since the MA function is activated, in order to apply no charge to the LTE packet of the MA-GW 300, the CCR-U message must be sent from the MA-GW 300 to the PCRF 207. However, in order for the MA-GW 300 to transmit the CCR-U message, the UE 100 needs to know a location movement event indicating that the terminal 100 moves from the first eNB to the second eNB.

Accordingly, the session management apparatus 500 transmits event information generated in the LTE wireless network, that is, wireless network event, to the MA-GW 300. The wireless network event may be classified into a data session update event and a data session end event.

Although the session management device 500 is implemented as an independent server device in the embodiment of FIG. 2, it may be included in the policy charging control mediation gateway (PCCMG) 600 as shown in FIG. 3.

3 is a diagram illustrating a configuration of a session management system according to another embodiment of the present invention.

Referring to FIG. 3, the session management system 1 includes a PCCMG 600 including a P-GW 203, a MA-GW 300, a PCRF 207, an SPR 209, and a session management apparatus 500. It includes. In this case, since the same components 203, 300, 207, 209, and 500 are described with reference to FIG. 2, detailed descriptions thereof will be omitted.

In general, the PCCMG 600 is connected to a subscriber subscription system (not shown), and serves to deliver subscriber subscription information to the PCRF 207 and the SPR 209. In this case, the interface between the PCCMG 600 and the PCRF 207 may use a policy event record (PER), which is an Oracle protocol. The PER is a protocol for transmitting a log to the external device when a specific policy is determined by the PCRF 207.

The interface between the PCCMG 600 and the SPR 209 may use the Simple Object Access Protocol (SOAP).

The session management apparatus 500 according to the embodiment of the present invention may be included in the PCCMG 600. According to this embodiment, the PCCMG 600 is already built in the wireless communication system, and the interface with the EPC configurations, that is, the PCRF 207, the SPR 209, and the MA-GW 300 is implemented. You only need to add an interface to the, so you can minimize network changes.

FIG. 4 is a diagram illustrating a configuration of a session management system according to another embodiment of the present invention, which is the same as FIG. 3 but in which a DRA (Diameter Routing Agent) 700 is added.

Referring to FIG. 4, the session management system 1 includes a P-GW 203, a MA-GW 300, a DRA 700, a PCRF 207, an SPR 209, and a session management device 500. PCCMG 600 is included. In this case, since the same components 203, 300, 207, 209, 500, and 600 of FIG. 3 have already been described with reference to FIG. 3, a detailed description thereof will be omitted.

The DRA 700 is a device that proxies or relays messages sent and received between devices interworking with a diameter protocol. In general, the DRA 700 selects one PCRF 207 to be connected with the P-GW 203 among the plurality of PCRFs 207, and selects the CCR message received from the P-GW 203. ).

In an embodiment of the present invention, the DRA 700 is connected with the P-GW 203 and the MA-GW 300, respectively, and with the PCRF 207. At this time, the interface between the DRA 700 and the P-GW 203, the interface between the DRA 700 and the MA-GW 300, and the interface between the DRA 700 and the PCRF 207 are defined as Gx, respectively.

The DRA 700 forwards the CCR message received from each of the P-GW 203 and the MA-GW 300 to the PCRF 207, and the CCR message received from the PCRF 207 and the P-GW 203 and The MA-GW 300 serves as a relay to deliver to each.

In addition, according to another embodiment, the DRA 700 may interwork with the PCCMG 600 via the PER protocol in place of the PCRF 207. Since the DRA 700 routes all CCR messages, it is possible to control the role of the PCRF 207, namely data session update and data session termination.

The session management operation of the session management apparatus 500 according to the embodiment of FIG. 2 to FIG. 4 will be described as follows. At this time, the procedure is the same in Figures 2, 3, and 4, but in Figure 4 is added a procedure that the CCR message passes through the DRA (700). Hereinafter, a session management method will be described using the embodiment of FIG. 4 as an example.

5 is a flowchart illustrating a series of procedures of a session management method according to an embodiment of the present invention. In particular, FIG.

Referring to FIG. 5, when a data session creation request is generated (S101), the P-GW 203 transmits a Credit Control Reqeust-Initial (CCR-I) message to the PCRF 207 (S103, S105). Request PCC information.

Here, the data session creation request may be a Create Session Request (CSR) message received from the MME 205 and the S-GW 201. When the terminal 100 requests an access to the LTE network through an operation such as power on, for generating a data session which is a data transmission path between the terminal, eNB, S-GW, and P-GW, the MME ( 205 and the S-GW 201 send a session creation request message (or CSR message) to the P-GW 203 to request the subscriber to create a data session. Here, the data session is named to distinguish it from the MA session.

At this time, the CCR-I message includes attachment information. The access information includes a data APN allocated to a data session formed between the terminal 100 and the P-GW 203, network connection information of the terminal, and the like. The network access information includes a terminal IP address (PDN IP Address), access radio network information (RATe), and the like.

When the CCR-I is received (S105), the PCRF 207 requests subscription information of the corresponding subscriber through the subscriber information request message to the SPR 209 (S107). SPR 209 may optionally be present within PCRF 207.

The SPR 209 transfers the corresponding subscriber information to the PCRF 207 through the subscriber information response message (S109). The subscriber information managed by the SPR 209 includes information such as the type of service of the subscriber, whether to subscribe and activate, a billing method, a plan, and an APN.

The PCRF 207 selects the PCC and the billing selection corresponding to the information obtained from the CCR-I and the subscriber information received from the SPR 209, that is, the PCC rule, and converts the selected PCC rule information into CCA-I (Credit). Transfer to the P-GW 203 through the Control Answuer-Initial message (S111, S113).

Then, the P-GW 203 transmits a Create Session Response (CSR) message to the MME 205 and the S-GW 201 to complete the data session creation.

At this time, the PCRF 207 forwards the CCR-I message received in step S105 to the session management apparatus 500 (S115). Although described as forwarding after the step S111, it may be forwarded immediately after the step S105, which can be carried out in various ways.

The session management apparatus 500 generates first Gx session information based on the data session information obtained from the received CCR-I message (S117).

On the other hand, when the MA-GW 300 generates a MA session creation request (S119), and transmits the CCR-I to the PCRF (207), at this time, the CCR-I includes the MA APN (S121, S123). The MA session refers to a session formed between the MA-GW 300 and the PCRF 207.

The PCRF 207 transmits a subscriber information request message to the SPR 209 (S125), and receives a subscriber information message (S127). In addition, the CCA-I message including the PCC rule determined or selected based on the subscriber information received from the SPR 209 (S127) and the network access information received in step S123 is transmitted to the MA-GW 300 (S129). , S131). Then, the MA-GW 300 performs a response to the MA session creation request generated in step S119, and completes the creation of the MA session.

The PCRF 207 forwards the CCR-I message received in step S123 to the session managing apparatus 500 (S133). Although described as forwarding after step S129, it may also be forwarded immediately after step S123, which may be variously performed.

The session management apparatus 500 generates second Gx session information based on MA session information obtained from the received CCR-I message (S133) (S135).

The session managing apparatus 500 matches the first Gx session information generated in operation S117 with the second Gx session information generated in operation S135 (S137). In this case, the session management apparatus 500 may generate a Gx session information table that matches the first Gx session information and the second Gx session information as shown in Table 1 below.

Session
Kinds Gx Session ID (Key) IMSI APN Session Information 1
[Ex: Serving-MCC-MNC] Session Information N [Ex: Cell ID] data
Session pgw1.kt.com; 1486979575; 0 450086020001111 lte.ktfwing.com 45008 386560 MA session magw1.kt.com; 1486980686; 0 450086020001111 ma.ktfwing.com 45008 386560

Herein, the first Gx session information is a session of a data type, and the second Gx session information is a session of a MA type. At this time, each Gx session information includes a Gx session ID, an International Mobile Subscriber Identity (IMSI), an APN, session information 1, session information N, and the like.

The first Gx session information and the second Gx session information are each distinguished by a unique session ID. This session ID is information contained as Mandatory in a Diameter protocol message. CCR-I messages, CCR-U messages, and CCR-T messages that occur in a valid session all contain the same session ID. Session ID is used as a key to distinguish session between Gx session parties. The Gx session parties are P-GW 203 and PCRF 207 and MA-GW 300 and PCRF 207. Descriptions of such session IDs may refer to those described in the RFC 3588 standard document.

IMSI is terminal information, and both the first Gx session information and the second Gx session information are the same. Therefore, the terminal information is used to determine whether the first session information and the second session information match.

APNs are differently allocated to the first Gx session information and the second Gx session information. The APN of the first Gx session information is a data APN allocated to a data session formed between the terminal 100 and the P-GW 203. The APN of the second Gx session information is a MA APN allocated to a MA session formed between the terminal 100 and the MA-GW 300.

Session information 1,... , N is information about a data session or MA session, and may be an update target when updating a Gx session in FIG. 6 to be described later.

6 is a flowchart illustrating a series of procedures of a session management method according to another embodiment of the present invention, which shows a session creation process different from that of FIG.

When the MA session is created, the MA-GW 300 cannot include the access network identifier in the CCR-I message because the data session information is not known. Here, the access network identifier means, for example, an MCC-MNC value, a cell ID, or the like used to determine whether to roam. However, if there is no MCC-MNC value, the PCRF 207 does not know which network the terminal 100 is connected to, and thus, the terminal 100 may not give an optimal PCC suitable for the operator of the network to which the terminal 100 is connected. Therefore, since charging control cannot normally be performed on data used until the CCR-U message or CCA-U message is processed, in the embodiment of FIG. 6, the CCR-I message itself requesting the creation of a MA session by the DRA 700. Manually correct.

Referring to FIG. 6, when a data session creation request is generated (S201), the P-GW 203 transmits a CCR-I message to the PCRF 207 through the DRA 700 (S203 and S205). Request PCC information.

When the CCR-I is received (S205), the PCRF 207 requests subscriber information of the corresponding subscriber through the subscriber information request message to the SPR 209 (S207).

The SPR 209 transfers the corresponding subscriber information to the PCRF 207 through the subscriber information response message (S209).

The PCRF 207 selects the PCC and billing selection corresponding to the information obtained from the CCR-I and the subscriber information received from the SPR 209, that is, the PCC rule, and selects the selected PCC rule information through the CCA-I message. The transmission is transmitted to the P-GW 203 through 700 (S211, S213).

The P-GW 203 then sends a session creation response (CSR) message to the MME 205 and S-GW 201 to complete the data session creation.

At this time, the PCRF 207 forwards the CCR-I message received in step S205 to the session management apparatus 500 (S215). Although described as forwarding after step S211, it may be forwarded immediately after step S205, which can be variously performed.

The session management apparatus 500 generates first Gx session information based on the data session information obtained from the received CCR-I message (S215) (S217).

On the other hand, the DRA 700 stores the data session information obtained through the CCR-I message received in step S203 (S219). Here, the stored data session information includes IMSI, Mobile Station International ISDN Number (MSSI), Session-ID, and further includes information necessary to correct the MA session creation message. In this case, information necessary to correct the MA session generation message may include a mobile country code (MCC) -mobile network code (MNC).

After that, when the MA session creation request is generated (S221), the MA-GW 300 transmits a CCR-I message including the MA APN to the DRA 700 (S223). Here, the MA session creation request may occur as a MA function turn-on at the terminal 100.

The CCR-I message transmitted by the MA-GW 300 does not include MCC-MNC Attribute Value Pairs (AVP) because the MA-GW 300 does not know the data session information.

The DRA 700 retrieves the data session information stored in step S219 with information included in receiving the CCR-I message from the MA-GW 300 (S225). In this case, a key value may be used as a subscriber identity (IMSI) when searching for a data session.

The DRA 700 extracts an MCC-MNC value from the retrieved data session information (S225) (S227) and corrects the extracted MCC-MNC value included in the received CCR-I message (S223) (S229). ). The DRA 700 transmits the corrected CCR-I message to the PCRF 207 (S231). At this time, the CCR-I includes a MA APN.

The PCRF 207 transmits a subscriber information request message to the SPR 209 (S233), and receives a subscriber information message (S235). In addition, the CCA-I message including the subscriber information received from the SPR 209 (S235), the network access information received in step S231, and the PCC rule determined or selected based on the MCC-MNC value are transmitted through the DRA 700. It transmits to the MA-GW (300) (S237, S239). Then, the MA-GW 300 performs a response to the MA session creation request generated in step S221, and completes the creation of the MA session.

On the other hand, the PCRF 207 forwards the CCR-I message received in step S231 to the session management apparatus 500 (S241). In this case, step S241 is described as forwarding after step S237, but may also be forwarded immediately after step S231, which may be variously performed.

The session management apparatus 500 generates second Gx session information based on the MA session information obtained from the received CCR-I message (S243).

The session management apparatus 500 matches the first Gx session information generated in step S217 and the second Gx session information generated in step S243 (S245). In this case, the session managing apparatus 500 may generate a Gx session information table that matches the first Gx session information and the second Gx session information as shown in Table 1 below.

In addition, the DRA 700 matches and manages data session information obtained in step S203 and MA session information obtained in step S223 in order to route multiple sessions of one subscriber to the same PCRF 207. In this way, different sessions of one subscriber, that is, data sessions and MA sessions, can be prevented from being distributed by different PCRFs 207. At this time, the DRA 700 identifies the data session and the MA session as an APN.

Here, the series of operations (S225, S227, S229) in which the DRA 700 corrects the CCR-I message is applied only to the CCR-I message, that is, only for initial MA session creation, and the session update of FIG. The case of session termination of FIG. 8 does not apply.

7 is a flowchart illustrating a series of procedures of a session management method according to another embodiment of the present invention, in particular, illustrating a session update process.

Referring to FIG. 7, when a data session update event, which is one of wireless network events, occurs (S301), the P-GW 203 transmits a credit control request-update (CCR-U) message to the PCRF 207 (S303). S305), and requests the subscriber's PCC information.

When the P-GW 203 receives a bearer change message from the MME 205 and the S-GW 201, the P-GW 203 may detect the occurrence of a data session update event.

Here, the data session update event occurs when a change is required in the data session between the terminal 100 and the P-GW 203. For example, it may occur according to the change of the access network of the terminal 100, the change of the position of the terminal 100, the change of the state (Idle, Active) of the terminal 100 and the like. In addition, a data update event may occur when an update on a service policy applied to the terminal 100 is required.

The PCRF 207 interoperates with the SPR 209 to change the PCC rule, and transmits a CCA-U message including the changed PCC rule to the P-GW 203 (S307 and S309). The P-GW 203 then responds to the data session update event to the MME 205 and S-GW 201 so that the data session can be changed.

On the other hand, the PCRF 207 forwards the received CCR-U message to the session managing apparatus 500 (S311). Although described as forwarding after step S307, it may also be forwarded immediately after step S205, which may be variously performed.

The session management apparatus 500 updates the first Gx session information based on the data session update information obtained from the received CCR-U message (S311) (S313).

The session management apparatus 500 determines whether there is second Gx session information matching the first Gx session information (S315).

The session management apparatus 500 confirms the first Gx session information based on the session ID of the CCR-U message. The second session information matching the first session information may be found by checking the second session information including the same terminal information as the terminal information included in the CCR-U message or the terminal information included in the first Gx session information.

At this time, if there is no second Gx session information matching the first Gx session information, the step ends.

On the other hand, if there is the second Gx session information matching the first Gx session information, the session management apparatus 500 transmits a notification message notifying the data session update event to the MA-GW 300 (S317).

Here, the notification message is transmitted in the form of a request message, and the session managing apparatus 500 receives a notification response message from the MA-GW 300 (S319). The session managing apparatus 500 checks whether the notification message transmission S317 is normally performed by receiving the notification response message.

In addition, the notification message includes the IMSI of the terminal 100, a data session update event generated in step S301, a second Gx session identifier (ID), and the like. At this time, the data session update event is based on the event information included in the CCR-U message received in step S311.

In this case, when at least two second Gx session information having different session IDs exist in the same terminal information, at least two notification messages may be generated. Each notification message includes a different second Gx session identifier (ID).

In addition, the second Gx session identifier (ID) includes source host information of the CCR-I message. That is, the session ID (second Gx session identifier) of the CCR-I message transmitted from the MA-GW 300 includes original host information. The session management apparatus 500 may match the source host information of the session ID (second Gx session identifier) extracted from the CCR-I message transmitted from the MA-GW 300 with the IP address of the MA-GW 300 and store the matching information. have. Such matching information may be further stored in Table 1. Accordingly, when there are a plurality of MA-GWs 300, the session managing apparatus 500 may determine the MA-GW 300 to which the notification message is to be transmitted, based on the second Gx session identifier ID.

When the notification message is received in step S317, the MA-GW 300 considers the MA session update event to be generated.

The MA-GW 300 determines a session targeted for MA session update based on the second Gx session identifier ID included in the notification message. The MA-GW 300 transmits the CCR-U message for the determined session to the PCRF 207 (S321 and S323). The PCRF 207 interoperates with the SPR 209 to change the PCC rule, and transmits a CCA-U message including the changed PCC rule to the MA-GW 300 (S325 and S327). Then, the MA-GW 300 processes so that the MA session of the terminal 100 can be changed.

The PCRF 207 transmits the received CCR-U message to the session managing apparatus 500 (S329). Here, although the PCRF 207 is described as transmitting the CCR-U message to the session management apparatus 500 after step S325, it may be immediately transmitted after step S323, which can be variously performed.

The session management apparatus 500 updates the second Gx session information based on the MA session information obtained from the CCR-U message (S331).

8 is a flowchart illustrating a series of procedures of a session management method according to another embodiment of the present invention, and in particular, illustrates a session deletion process. In addition, detailed description of parts identical to those described in FIGS. 5 to 7 will be omitted.

Referring to FIG. 8, when a data session termination event, which is one of wireless network events, is generated (S401), the P-GW 203 transmits a Credit Control Request-Termination (CCR-T) message to the PCRF 207 (S403). S405). When the P-GW 203 receives a bearer cancel message or a session delete message from the MME 205 and the S-GW 201, the P-GW 203 may detect the occurrence of a data session termination event.

Here, the data session termination event may occur, for example, when the terminal 100 turns off the power.

After the PCRF 207 deletes the data session, the PCRF 207 transmits a CCA-T message to the P-GW 203 (S407 and S409). The P-GW 203 then responds to the MME 205 and the S-GW 201 in response to the data session deletion event, such that the data session can be deleted.

On the other hand, the PCRF 207 forwards the received CCR-T message to the session management apparatus 500 (S411). Although it is described as forwarding after step S407, forwarding may be performed after step S405, and various embodiments are possible.

The session management apparatus 500 deletes the first Gx session information based on the data session deletion information obtained from the received CCR-T message (S411).

The session management apparatus 500 determines whether there is second Gx session information matching the first Gx session information (S415). If there is no second Gx session information matching the first Gx session information, the step ends.

If there is the second Gx session information matching the first Gx session information, the session management apparatus 500 transmits a notification message notifying the data session termination event to the MA-GW 300 (S417). Here, the notification message is transmitted in the form of a request message, so that the session management apparatus 500 receives a notification response message from the MA-GW 300 (S419).

In addition, the notification message includes the IMSI of the terminal 100, a data session termination event generated in step S401, a second Gx session identifier (ID), and the like.

When the notification message is received in step S417, the MA-GW 300 regards the MA session termination event as occurring. The MA-GW 300 transmits the CCR-T message to the PCRF 207 (S421 and S423). The PCRF 207 transmits the CCA-T message to the MA-GW 300 (S425 and S427). Then, the MA-GW 300 processes so that the MA session of the terminal 100 can be deleted.

The PCRF 207 transmits the received CCR-T message to the session managing apparatus 500 (S429). The session management apparatus 500 deletes the second Gx session information based on the MA session information obtained from the CCR-T message (S431).

As described above, the MA-GW 300 may not know wireless network event information directly, but may obtain the session management apparatus 500.

Meanwhile, the above-described session management apparatus 500 may be implemented as a separate server as shown in FIG. 2, or mounted on the PCCMG 600 as shown in FIGS. 3 and 4, and may be a device capable of transmitting and receiving Gx messages. It can also be implemented in equipment.

According to an embodiment, the session management apparatus 500 may be included in the PCRF 207, which will be described with reference to FIGS. 9 to 12.

First, FIG. 9 is a diagram illustrating a configuration of a session management system in which PCRF performs session management according to an embodiment of the present invention.

Referring to FIG. 9, the session management system 1 includes a P-GW 203, a MA-GW 300, a PCRF 207, and an SPR 209. Components 203, 300, 207, 209, and 500 identical to those of FIGS. 2 to 8 have already been described with reference to FIGS. 2 to 8, and thus detailed descriptions thereof will be omitted.

At this time, the session management device 500 is included in the PCRF 207. The PCRF 207 includes a PCRF module 207a and a session managing device 500 that perform the PCRF original functions described with reference to FIGS. 1 to 8. A process in which session management is performed by the PCRF 207 is described by dividing into session creation, session update, and session deletion, respectively.

FIG. 10 is a flowchart illustrating a series of procedures of a session management method according to an embodiment of FIG. 9, illustrating a session creation process.

Referring to FIG. 10, when a data session creation request is generated (S501), the P-GW 203 transmits a CCR-I message to the PCRF 207 (S503) and requests the PCC information of the subscriber.

The PCRF module 207a of the PCRF 207 requests the subscriber information of the corresponding subscriber through the subscriber information request message to the SPR 209 (S505), and receives the corresponding subscriber information from the SPR 209 through the subscriber information response message. (S507).

The PCRF module 207a of the PCRF 207 selects a PCC rule corresponding to the network access information obtained from the CCR-I message and the subscriber information received from the SPR 209, and includes a CCA-I including the selected PCC rule information. The message is transmitted to the P-GW 203 (S509).

The session management apparatus 500 of the PCRF 207 generates first Gx session information based on data session information obtained from the received CCR-I message (S503). In this case, step S511 is described as being performed after step S509, but may be performed after step S503 and may proceed in parallel with step S505, and various embodiments are possible.

On the other hand, when the MA-GW 300 generates the MA session creation request (S513), and transmits the CCR-I to the PCRF 207, at this time, the CCR-I includes the MA APN (S515).

The PCRF module 207a of the PCRF 207 transmits a subscriber information request message to the SPR 209 (S517), and receives a subscriber information message (S519). The PCRF module 207a of the PCRF 207 generates a CCA-I message including the PCC rule determined or selected based on the subscriber information received from the SPR 209 (S519) and the network access information received in step S515. The transmission is transmitted to the MA-GW 300 (S521).

The session management apparatus 500 of the PCRF 207 generates second Gx session information based on the MA session information obtained from the CCR-I message (S523). The session management apparatus 500 of the PCRF 207 matches the first Gx session information generated in step S511 and the second Gx session information generated in step S523 (S525). In this case, steps S523 and S525 are described as being performed after step S521, but may be performed after step S515 and proceed in parallel with step S517, and various embodiments are possible.

11 is a flowchart illustrating a series of procedures of a session management method according to another embodiment of FIG. 9, which illustrates a session update process.

Referring to FIG. 11, when a data session update event occurs (S601), the P-GW 203 transmits a CCR-U message to the PCRF 207 (S603) and re-requests PCC information of the subscriber. The PCRF module 207a of the PCRF 207 performs a change of the PCC rule in association with the SPR 209 and transmits a CCA-U message including the changed PCC rule to the P-GW 203 (S605).

The session management apparatus 500 of the PCRF 207 updates the first Gx session information based on the data session update information obtained from the received CCR-U message (S603) (S607). In this case, step S607 is described as being performed after step S605, but may be performed after step S603, various embodiments are possible.

The session management apparatus 500 of the PCRF 207 determines whether there is second Gx session information matching the first Gx session information (S609). If there is no second Gx session information matching the first Gx session information, the session management apparatus 500 of the PCRF 207 ends the step.

If there is the second Gx session information matching the first Gx session information, the session management apparatus 500 of the PCRF 207 transmits a notification message notifying the data session update event to the MA-GW 300 (S611). . The MA-GW 300 transmits a notification response message to the session management apparatus 500 of the PCRF 207 (S613).

When the notification message is received in step S611, the MA-GW 300 considers the MA session update event to be generated. The MA-GW 300 transmits a CCR-U message to the PCRF 207 (S615). The PCRF 207 performs a change of the PCC rule in association with the SPR 209 and transmits a CCA-U message including the changed PCC rule to the MA-GW 300 (S617).

The session management apparatus 500 of the PCRF 207 updates the second Gx session information based on the MA session information obtained from the CCR-U message (S619). At this time, step S619 is described as being performed after step S617, but may be performed after step S615, various embodiments are possible.

12 is a flowchart illustrating a series of procedures of a session management method according to another embodiment of FIG. 9, illustrating a session deletion process.

Referring to FIG. 12, when a data session end event occurs (S701), the P-GW 203 transmits a CCR-T message to the PCRF 207 (S703).

The PCRF module 207a of the PCRF 207 performs data session deletion, and then transmits a CCA-T message to the P-GW 203 (S705).

The session management apparatus 500 of the PCRF 207 deletes the first Gx session information based on the data session deletion information obtained from the received CCR-T message (S703) (S707). At this time, step S707 is described as being performed after step S705, but may be performed after step S703, various embodiments are possible.

The session management apparatus 500 of the PCRF 207 determines whether there is second Gx session information matching the first Gx session information (S709). If there is no second Gx session information matching the first Gx session information, the session management apparatus 500 of the PCRF 207 ends the step.

If there is the second Gx session information matching the first Gx session information, the session management apparatus 500 of the PCRF 207 transmits a notification message notifying the data session termination event to the MA-GW 300 (S711). . The MA-GW 300 transmits a notification response message to the session managing apparatus 500 of the PCRF 207 (S713).

When the notification message is received in step S611, the MA-GW 300 regards the MA session termination event as occurring. The MA-GW 300 transmits a CCR-T message to the PCRF 207 (S715). The PCRF 207 transmits the CCA-T message to the MA-GW 300 (S717).

The PCRF 207 deletes the second Gx session information based on the MA session information obtained from the received CCR-T message (S715) (S719). In this case, step S719 is described as being performed after step S717, but may be performed after step S715, and various embodiments are possible.

According to another exemplary embodiment, the session management apparatus 500 may be included in the DRA 700, which will be described with reference to FIGS. 13 to 16.

13 is a diagram illustrating a configuration of a session management system in which a DRA performs session management according to another embodiment of the present invention.

Referring to FIG. 13, the session management system 1 includes a P-GW 203, a MA-GW 300, a DRA 700, a PCRF 207, and an SPR 209. Components 203, 300, 207, 209, and 500 identical to those of FIGS. 2 to 8 have already been described with reference to FIGS. 2 to 8, and thus, detailed descriptions thereof will be omitted.

In this case, the session management apparatus 500 is included in the DRA 700. The DRA 700 includes a routing module 700a and a session management apparatus 500 for relaying Gx messages, which are the original functions of the DRA described with reference to FIG. 4.

In addition, although not shown, the DRA 700 may interwork with an existing PCCMG without a session management apparatus. In this case, the DRA 700 may perform PER interworking with the PCCMG in place of the PCRF 207.

The process of session management performed by the DRA 700 will be described by dividing into session creation, session update, and session deletion, respectively.

14 is a flowchart illustrating a series of procedures of a session management method according to an embodiment of FIG. 13, illustrating a session creation process.

Referring to FIG. 14, when a data session creation request is generated (S801), the P-GW 203 transmits a CCR-I message to the DRA 700 (S803). The routing module 700a of the DRA 700 transmits the received CCR-I message to the PCRF 207 (S805).

The PCRF 207 transmits a subscriber information request message for requesting subscriber information to the SPR 209 (S807), and receives a subscriber information response message including subscriber information from the SPR 209 (S809).

The PCRF 207 transmits the CCA-I message including the PCC rule information to the DRA 700 (S811). The routing module 700a of the DRA 700 transfers the received CCA-I message to the P-GW 203 (S813).

In this case, when the CCA-I message is received in step S811, the session management apparatus 500 of the DRA 700 generates first Gx session information based on data session information obtained from the CCR-I message received in step S803. (S815). In this case, step S815 is described as being performed after step S813, but may be performed after step S803 and performed in parallel with step S805, and various embodiments are possible.

On the other hand, when the MA-GW 300 generates a MA session creation request (S817), the MA-GW 300 transmits a CCR-I message to the DRA 700 (S819). The routing module 700a of the DRA 700 transmits the received CCR-I message to the PCRF 207 (S821).

The PCRF 207 transmits a subscriber information request message to the SPR 209 (S823), and receives a subscriber information message (S825). The PCRF 207 transmits the CCA-I message to the DRA 700 (S827). The routing module 700a of the DRA 700 transfers the received CCA-I message to the P-GW 203 (S829).

The session management apparatus 500 of the PCRF 207 generates second Gx session information based on the MA session information obtained from the CCR-I message (S831). The session management apparatus 500 of the PCRF 207 matches the first Gx session information generated in step S815 and the second Gx session information generated in step S831 (S833). In this case, steps S831 and S833 are described as being performed after step S827, but may be performed after step S819 to be performed in parallel with step S821, and various embodiments are possible.

FIG. 15 is a flowchart illustrating a series of procedures of a session management method according to another embodiment of FIG. 13, illustrating a session update process.

Referring to FIG. 15, when a data session update event occurs (S901), the P-GW 203 transmits a CCR-U message to the DRA 700 (S903). The routing module 700a of the DRA 700 transmits the received CCR-I message to the PCRF 207 (S905).

The PCRF 207 transmits the CCA-U message to the DRA 700 (S907). The routing module 700a of the DRA 700 transfers the received CCA-U message to the P-GW 203 (S909).

At this time, when the CCA-U message is received in step S907, the session management apparatus 500 of the DRA 700 updates the first Gx session information based on the data session information obtained from the CCR-U message received in step S903. (S911). In this case, step S911 is described as being performed after step S909, but may be performed after step S903 and performed in parallel with step S905, and various embodiments are possible.

The session management apparatus 500 of the DRA 700 determines whether there is second Gx session information matching the first Gx session information (S913). If there is no second Gx session information matching the first Gx session information, the session management apparatus 500 of the DRA 700 ends the step.

If there is the second Gx session information matching the first Gx session information, the session management apparatus 500 of the DRA 700 transmits a notification message notifying the data session update event to the MA-GW 300 (S915). . The MA-GW 300 transmits a notification response message to the session management apparatus 500 of the DRA 700 (S917).

When the notification message is received in step S915, the MA-GW 300 considers the MA session update event to be generated. The MA-GW 300 transmits a CCR-U message to the DRA 700 (S919). The routing module 700a of the DRA 700 transmits a CCR-U message to the PCRF 207 (S921).

The PCRF 207 interoperates with the SPR 209 to change the PCC rule, and transmits a CCA-U message including the changed PCC rule to the DRA 700 (S923). The routing module 700a of the DRA 700 transmits the received CCA-U message to the MA-GW 300 (S925).

The session management apparatus 500 of the DRA 700 updates the second Gx session information based on the MA session information obtained from the CCA-U message (S927). In this case, step S927 is described as being performed after step S925, but may be performed after step S919 to be performed in parallel with step S921, and various embodiments are possible.

16 is a flowchart illustrating a series of procedures of a session management method according to another embodiment of FIG. 13, illustrating a session deletion process.

Referring to FIG. 16, when a data session termination event occurs (S1001), the P-GW 203 transmits a CCR-T message to the DRA 700 (S1003). The routing module 700a of the DRA 700 transmits a CCR-T message to the PCRF 207 (S1005).

The PCRF 207 transmits a CCA-T message to the DRA 700 (S1007). The routing module 700a of the DRA 700 transmits the received CCR-T message to the P-GW 203 (S1009).

The session management apparatus 500 of the DRA 700 deletes the first Gx session information based on the data session deletion information obtained from the received CCR-T message (S1011). In this case, step S1011 is described as being performed after step S1009, but may be performed after step S1003 to be performed in parallel with step S1005, and various embodiments are possible.

The session management apparatus 500 of the DRA 700 determines whether there is second Gx session information matching the first Gx session information (S1013). If there is no second Gx session information matching the first Gx session information, the session management apparatus 500 of the DRA 700 ends the step.

If there is the second Gx session information matching the first Gx session information, the session management apparatus 500 of the DRA 700 transmits a notification message indicating the data session termination event to the MA-GW 300 (S1015). . The MA-GW 300 transmits a notification response message to the DRA 700 (S1017).

When the notification message is received in step S1015, the MA-GW 300 regards the MA session termination event as occurring. The MA-GW 300 transmits a CCR-T message to the DRA 700 (S1019). The routing module 700a of the DRA 700 transmits a CCR-T message to the PCRF 207 (S1021).

The PCRF 207 transmits the CCA-T message to the DRA 700 (S1023). The routing module 700a of the DRA 700 transmits a CCR-T message to the MA-GW 300 (S1025).

The session management apparatus 500 of the DRA 700 deletes the second Gx session information based on the MA session information obtained from the received CCR-T message (S1027). At this time, step S1027 has been described as being performed after step S1025, but may be performed after step S1019 to be performed in parallel with step S1021, various embodiments are possible.

17 is a view for explaining the detailed configuration of the session management apparatus according to an embodiment of the present invention.

Referring to FIG. 17, the session managing apparatus 500 includes a Gx message receiving unit 501, an event notification unit 503, a session managing unit 505, and a session DB 507.

The Gx message receiving unit 501 receives a CCR message transmitted and received through the Gx interface.

According to the exemplary embodiment of FIGS. 2 to 7, the Gx message receiving unit 501 includes a first interface interworking with the PCRF 207. The Gx message receiving unit 501 receives a CCR-I message, a CCR-U message, and a CCR-T message transmitted from each of the P-GW 203 or the MA-GW 300 from the PCRF 207 through the first interface. do.

8 to 11, the Gx message receiving unit 501 transmits and receives a CCR message in cooperation with a MA-GW 300 and a first Gx interface that transmits and receives a CCR message in cooperation with the P-GW 203. It may include a second Gx interface.

Alternatively, the first Gx interface and the second Gx interface may be included in the PCRF module 207a, and the Gx message receiver 501 may interwork with the PCRF module 207a.

According to the embodiments of FIGS. 12 to 15, the Gx message receiving unit 501 transmits and receives a CCR message in cooperation with the MA-GW 300 and a first Gx interface that transmits and receives a CCR message in cooperation with the P-GW 203. It may include a second Gx interface.

Alternatively, the first Gx interface and the second Gx interface may be included in the routing module 700a, and the Gx message receiver 501 may interwork with the routing module 700a.

The event notification unit 503 includes an interface interworking with the MA-GW 300, and transmits a notification message informing the MA-GW 300 of a wireless network event through the interface, and receives a response to the notification message. do.

The event notification unit 503 may interwork with the MA-GW 300 using a newly defined protocol standard.

8 to 15, the event notification unit 503 interworks with the MA-GW 300 through the Gx interface. Accordingly, the event notification unit 503 may be embodied as one interface device physically connected to the second Gx interface that receives the CCR message.

The session manager 505 uses the P-GW 203 based on the CCR-I message transmitted from the P-GW 203 to the PCRF 207 to create a data session between the terminal 100 and the P-GW 203. And first Gx session information between the PCRF 207.

The session manager 505 performs the MA-GW 300 based on the CCR-I message transmitted from the MA-GW 300 to the PCRF 207 for generating a MA session between the terminal 100 and the MA-GW 300. And second Gx session information between the PCRF 207.

The session manager 505 stores information matching the first Gx session information with the second Gx session information in the session DB 507.

When the session policy re-request occurs from the P-GW 203, the session manager 505 determines whether there is second Gx session information matched with the first Gx session information, and a second matched with the first Gx session information. If there is the Gx session information, the MA-GW 300 notifies the wireless network event information that caused the session policy re-request based on the second Gx session information. At this time, the session policy re-request includes a CCR-U message and a CCR-T message.

FIG. 18 is a hardware block diagram of a session management system according to an embodiment of the present invention, and the components 201, 203, 205, 207, 209, included in the session management system 1 described with reference to FIGS. 300, 500, 600, and 700) each shows a hardware configuration.

Referring to FIG. 18, the session management system 800 is composed of hardware including a communication device 801, a memory 803, a storage device 805, and at least one processor 807, and the hardware at a designated place. The program to be executed in conjunction with is stored. The communication device 801 is connected to the processor 807 to transmit and / or receive data. The memory 803 is connected to the processor 807 and stores a program including instructions for executing the configuration and / or method according to the embodiments described with reference to FIGS. 1 through 17. The processor 807 executes a program stored in the memory 803.

The program implements the present invention in combination with hardware such as memory device 803 and processor 807. The hardware has a configuration and performance capable of executing the configuration and / or method according to the embodiments described with reference to FIGS. 1 through 17.

In addition, according to one embodiment, the communication device 801 is interworking with the PCRF 207, a first interface for receiving CCR messages, a second interface for interworking with the MA-GW 300, and transmitting a notification message. It may include.

According to another embodiment, the communication device 801 is interworking with the PCRF 207, the first interface for receiving the CCR messages generated in the P-GW 203, and the MA-GW 300 in cooperation with the MA. And a second interface for receiving the CCR message generated from the GW 300 and transmitting a notification message to the MA-GW 300.

According to another embodiment, the communication device 801 is interworking with the P-GW 203 and interworking with the MA-GW 300, the first interface for transmitting and receiving CCR messages with the P-GW 203 and the MA-GW And a second interface for transmitting and receiving CCR messages with the 300 and transmitting a notification message to the MA-GW 300, and a third interface for transmitting and receiving CCR messages in association with the PCRF 207. In this case, the program may route the CCR messages received through the first interface and the CCR messages received through the second interface to the third interface, and respectively route the CCR messages received through the third interface to the first interface or the second interface. It may include instructions for routing to an interface.

The embodiments of the present invention described above are not only implemented through the apparatus and the method, but may also be implemented through a program for realizing a function corresponding to the configuration of the embodiments of the present invention or a recording medium on which the program is recorded.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

Claims (20)

A session management method performed in a session management device operated by at least one processor,
Generating first session information between the terminal and the packet gateway device connected through the first network and the policy management device managing the session policy;
Generating second session information between the first transmission network and the MCP and the policy management apparatus connected to the terminal through at least one second network different from the first network to provide a multi-network merge transmission service; ,
Matching and storing the first session information and the second session information;
Receiving a session policy re-request message from the policy management device according to a data session update event occurring at the packet gateway device;
Updating the first session information based on the session policy re-request message,
Confirming second session information matching the first session information;
Generating a notification message on the basis of the second session information, the notification message including the event information causing the session policy re-request message;
Transmitting the notification message to the merge transmission gateway device;
Receiving a session policy re-request message from the policy management device due to the event information of the notification message, and
Updating the second session information based on the session policy re-request message due to the event information of the notification message.
Including, session management method. delete In claim 1,
The first session information,
The packet gateway device is generated based on information obtained from a first CCR-I message requesting a session policy transmitted from the packet gateway device to the policy management device.
The second session information,
And generated based on the information obtained from the second CCR-I message transmitted from the merge transmission gateway device to the policy management device. In claim 3,
The first session information and the second session information,
Are divided into different APNs,
The different APN,
A first access point name (APN) included in the first CCR-I message and assigned to a data session formed between the terminal and the packet gateway device;
And a second APN included in the second CCR-I message and assigned to a merge transmission session formed between the terminal and the merge transmission gateway device. In claim 3,
The first session information and the second session information,
Contains the same terminal information,
The same terminal information,
And determine whether the first session information and the second session information match each other. In claim 3,
The first session information and the second session information,
Separated by unique session identifiers,
The different unique session identifier,
A first session identifier commonly included in the session policy re-request message and the first CCR-I message generated from the packet gateway device and assigned to the first session information;
And a second session identifier commonly included in the session policy re-request message and the second CCR-I message generated from the merge transport gateway device, and assigned to the second session information. In claim 6,
The second session identifier,
Included in the notification message, wherein the merge transport gateway device is used to distinguish a session to which the notification message is applied. In claim 6,
The second session identifier,
And a source host information of the second CCR-I message, and used to determine the notification message transmission destination among a plurality of merge transmission gateway devices. In claim 6,
The notification message,
At least two notification messages each including a different second session identifier,
Generating the notification message,
Identifying first session information corresponding to a first session identifier extracted from the session policy re-request message;
Identifying at least two pieces of second session information matching the first session information and having different second session identifiers based on the terminal information included in the first session information; and
Generating each of the at least two notification messages based on each of the at least two second session information.
Including, session management method. In claim 3,
The session policy re-request message is
Contains a Credit Control Request-Update (CCR-U) message requesting an update of the session policy,
The first session information,
Updated based on a first CCR-U message transmitted from the packet gateway device to the policy management device,
The second session information,
And updating based on the second CCR-U message transmitted from the merge transmission gateway device to the policy management device. In claim 3,
The session policy re-request message is
Includes a Credit Control Request-Termination (CCR-T) message requesting the end of the session,
The first session information,
Deleted based on the first CCR-T message transmitted from the packet gateway device to the policy management device;
The second session information,
And delete based on the second CCR-T message transmitted from the merge transmission gateway device to the policy management device. In claim 1,
Session policy re-request messages received from the policy management device,
Is transmitted from a Diameter Routing Agent (DRA) to the policy management device,
The DRA,
Connected with the packet gateway device, the merge transport gateway device, and the policy management device to perform CCR message routing,
Store network identifier, subscriber information and data session information obtained from a first CCR-I message requesting a session policy received from the packet gateway device, and store the first CCR-I message Route to policy management devices,
Obtaining a network identifier of prestored data session information based on subscriber information obtained from the second CCR-I message received from the merged transmission gateway device, and including the network identifier in the second CCR-I message; Session management method for routing to a policy management device. delete delete delete Communication devices,
Memory for storing the program, and
At least one processor for executing the program,
The program,
Generating a data session between a terminal and a packet gateway device, generating first session information based on a first session policy request message transmitted from the packet gateway device to a policy management device;
Generating a second session information based on a second session policy request message transmitted from the merge transmission gateway apparatus to the policy management apparatus when generating a merge transmission session between the terminal and the merge transmission gateway apparatus;
Mapping the first session information and the second session information,
When a first session policy re-request message is received from the policy management device due to a data session update event occurring in the packet gateway device, the second session information matching the first session information is checked,
Instructions for generating a notification message including the data session update event based on the second session information and transmitting the generated notification message to the merge transmission gateway device;
The notification message,
Generate a second session policy re-request message from the merge transport gateway device to the policy management device,
The first session information is updated due to the first session policy re-request message,
And the second session information is updated due to the second session policy re-request message. delete The method of claim 16,
The communication device,
A first interface interworking with the policy management device and receiving the first session policy request message, the second session policy request message, the first session policy re-request message and the second session policy re-request message; and
A second interface interworking with the merge transmission gateway device and transmitting the notification message;
Session management apparatus comprising a. The method of claim 16,
The communication device,
A first interface interworking with the packet gateway device and receiving the first session policy request message and the first session policy re-request message; and
A second interface interworking with the merge transmission gateway device and receiving the second session policy request message and the second session policy re-request message and transmitting the notification message;
Session management apparatus comprising a. The method of claim 16,
The communication device,
A first interface interworking with the packet gateway device and receiving the first session policy request message and the first session policy re-request message;
A second interface interworking with the merge transmission gateway device and receiving the second session policy request message and the second session policy re-request message and transmitting the notification message; and
A third interface interoperating with the policy management device;
The program,
Route messages received through the first interface and messages received through the second interface to the third interface, and messages received through the third interface to the first interface or the second interface, respectively. Session management apparatus comprising routing instructions.

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