KR101513452B1 - Apparatus for processing subscriber information in wireless communication system and method thereof - Google Patents

Abstract

The present invention relates to an apparatus and a method for processing subscriber information in a wireless communications system. According to the present invention, when UE performs handover, a source eNB provides specific service subscriber information. MME which receives the specific service subscriber information confirms whether a target eNB provides a specific service to the UE through a cell group service level and specific service subscriber information stored in the MME. When the UE is subscribed in a specific service, the target eNB is set to provide a specific service and the MME provides specific service supporting information to the target eNB. Then, the target eNB sets context according to the specific service supporting information and provides the specific service to the UE. In addition, the MME notifies that the target eNB provides the specific service to the UE to SGW and PGW. According to the present invention, the performance of the entire system may be improved by reducing traffic for a home subscriber server (HSS) because the apparatus does not need to ask whether the specific service of the UE is subscribed to the HSS. In addition, the MME notifies that the target eNB provides the specific service to the UE to the SGW and the PGW. Therefore, that the target eNB provides the specific service to the UE can be utilized as information to charge payment for the specific service.

Description

[0001] Apparatus for processing subscription information in a wireless communication system,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to wireless communication technology, and more particularly, to an apparatus and method for processing subscription information for providing a specific service in a wireless communication system.

In addition to LTE-A, LTE-A and Evolved High-Speed Packet Access (HSPA +), which are LTE-A (LTE advanced) . LTE is based on Release 8, a wireless high-speed data packet access standard established by the 3rd Generation Partnership Project (3GPP) in December 2008, and is aimed at 4G wireless technology (4G) designed to increase network capacity and speed. It is the technology of all stages. LTE is an all-IP-based network that provides differentiated QoS (Quality of Service) for real-time and non-real-time services and can provide efficiency of network resources and also introduces smart antenna technology (MIMO) It extends the bandwidth for wireless communications, supporting speeds up to 12 times faster than HSDPA. LTE-A is defined as improving the above-described LTE to provide a maximum transmission rate of 1 Gbps down and 500 Mbps upstream. This LTE-A provides higher data throughput than LTE through Carrier Aggregation (CA) and Coordinate Muti-Point (CoMP) technologies not supported by LTE. Here, CA is a technique of using frequency bands expanded by using different frequency bands at the same time, and CoMP is a technique for increasing throughput at a cell boundary through interference control by cooperation between neighboring base stations. Accordingly, in the current mobile communication system, two or more mobile communication services according to different standards such as LTE and LTE-Advanced are mixed and supported.

Korean Patent Publication No. 2011-0121547, published on Nov. 07, 2011 (Name: Apparatus and method for supporting gateway node reselection in a communication system)

It is an object of the present invention to provide an apparatus and method for processing subscription information in a wireless communication system capable of providing a specific service in order to provide a specific service to a corresponding user apparatus according to movement of the user apparatus.

According to another aspect of the present invention, there is provided a mobility management server for processing subscription information according to a preferred embodiment of the present invention. The mobility management server includes a handover request message requesting handover to a target base station, And a control unit configured to determine whether the specific service can be provided by the target base station in response to the reception of the specific service subscription information, And a control unit for transmitting a handover request message including service support information to the target BS through the interface unit.

According to another aspect of the present invention, there is provided a target base station for processing subscription information according to the present invention comprises: an interface module for receiving a handover request message for requesting a handover of a user equipment from a mobility management server; And a control module for setting a context for providing a specific service to the UE if the handover request message includes specific service support information.

According to another aspect of the present invention, there is provided a method for processing a subscription information of a mobility management server, the method comprising the steps of: receiving a handover request message from a source base station, The method comprising the steps of: receiving information on a specific service; checking whether the target base station can provide the specific service according to receipt of the specific service subscription information; and if the specific service can be provided, And transmitting a handover request message including specific service support information to the target base station so as to set a context according to the service.

According to another aspect of the present invention, there is provided a method of processing a subscriber information of a target base station, the method including receiving a handover request message requesting handover from the mobility management server to a user equipment, And setting a context so that a specific service is provided to the user apparatus if the specific service support information is included in the over request message.

According to the present invention, when a user equipment subscribed to a specific service moves from a source base station to a target base station, the mobility management server (MME) confirms whether the target base station can provide a specific service to the user equipment, HSS). Accordingly, the traffic to the home subscriber server is reduced, and the performance of the entire system can be improved. In addition, the mobility management server informs the serving gateway and the packet gateway that the target base station is providing specific services to the user equipment. As a result, it can be utilized as information for charging for a specific service.

1 is a diagram for explaining a schematic configuration of a wireless communication system according to an embodiment of the present invention.
2 is a block diagram for explaining a schematic internal configuration of a mobility management server according to an embodiment of the present invention.
3 is a block diagram illustrating a schematic internal structure of a base station according to an embodiment of the present invention.
4 is a flowchart illustrating an initial connection procedure of a user apparatus according to an embodiment of the present invention.
5A to 5C are flowcharts for explaining a method for subscription information processing in handover according to an embodiment of the present invention.
6 is a flowchart illustrating a method for processing subscription information of a mobility management server according to an embodiment of the present invention.
7 is a flowchart illustrating a method for processing subscription information of a target BS according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that, in the drawings, the same components are denoted by the same reference symbols as possible. Further, the detailed description of known functions and configurations that may obscure the gist of the present invention will be omitted. For the same reason, some of the components in the drawings are exaggerated, omitted, or schematically illustrated.

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

1, a wireless communication system according to an embodiment of the present invention includes a base station (eNodeB, hereinafter referred to as "eNB") 100, a mobility management entity (hereinafter, referred to as "MME" (SGS) 300, a packet data network gateway (PGW) 400, a home subscriber server (HSS) 500, and a subscriber policy management server Policy Control and Charging Rules Function (hereinafter, "PCRF", 600).

The above-mentioned system is referred to as EPS (Evolved Packet System), and EPS is a packet-switched core network such as EPC (Evolved Packet Core) and Evolved-Universal Terrestrial Radio Access Network (E-UTRAN) And a radio access network (RAN). Here, the EPC includes the MME 200, the SGW 300, the PGW 400, and the HSS 500.

Each of the entities according to the above-described embodiment of the present invention will be described.

The MME 200 includes an access to network connection, network resource allocation, tracking, paging, roaming and handover of a user equipment (UE) 10 It is an element that performs signaling and control functions to support. The MME 200 controls control plane functions related to subscriber and session management. The MME 200 manages a plurality of eNBs 100 and performs signaling for selection of a conventional gateway for handover to another 2G / 3G network. The MME 200 also performs functions such as security procedures, terminal-to-network session handling, and idle terminal location management.

The SGW 300 is an element that functions as a boundary point between a radio access network (RAN) and a core network and functions to maintain a data path between the eNB 100 and the PGW 400. [ In addition, when the UE 10 moves (e.g., handover, etc.) over an area served by the eNB 100, the SGW 300 may serve as an anchor point of the movement. That is, the packets can be routed through the SGW 300 for mobility in the E-UTRAN. In addition, the SGW 300 may be connected to another 3GPP network (RAN defined before 3GPP Release-8, e.g., UTRAN or GERAN (Enhanced Data Rates for Global Evolution) As shown in FIG.

The PGW 400 corresponds to the termination point of the data interface towards the packet data network. The PGW 400 may include policy enforcement features, packet filtering, charging support, lawful interception, UE IP allocation, packet screening, And so on. Further, mobility management with a 3GPP network and a non-3GPP network (e.g., an untrusted network such as an Interworking Wireless Local Area Network (I-WLAN), a Code Division Multiple Access (CDMA) network or a trusted network such as WiMax) It can serve as an anchor point for.

The HSS 500 manages user subscription information (or subscription data or subscription records) and location information.

The PCRF 600 manages a policy to be applied to the UE 10, a quality of service (QoS), and the like. The PCC (Policy and Charging Control) rules generated in the PCRF 600 are transmitted to the PGW 400.

The wireless communication system according to the embodiment of the present invention can provide a specific service and a normal service. Here, it is assumed that the specific service is, for example, an LTE-Advanced (hereinafter, LTE-A) service and the normal service is an LTE service. For example, the specific service includes CA (Carrier Aggregation) and Coord (Coordinate Multi-Point) functions.

In order to receive a specific service, the UE 10 must be subscribed to a specific service, and the eNB 100 must also be able to provide a specific service. In order for the eNB 100 to provide a specific service, the eNB 100 should be set to be able to provide a specific service separately from whether the eNB 100 has the capability to provide the specific service. According to the embodiment of the present invention, the MME 200 receives specific service subscription information from the HSS 500 indicating that the UE 10 is subscribed to a specific service at the initial connection of the UE 10, 10). ≪ / RTI > The MME 200 can determine whether the UE 10 is subscribed to a specific service based on the specific service subscription information stored therein. In addition, the MME 200 stores a cell group service level in which a service level for a plurality of eNBs 100 connected to the MME 200 is set. The cell group service level is set to a service level that enables or disables a specific service for each eNB 100. The setting of the service level may be set so that the service provision is restricted according to the policy of the service provider. The MME 200 may store the number of UEs 10 accommodated in each eNB 100 every time a movement procedure such as initial registration and handover of the UE 10 is performed. The MME 200 sets a limit value for accommodating the UE 10 for each eNB 100, and estimates that an overload occurs when the set value exceeds the set threshold. Therefore, if it is determined that the eNB 100 can exceed the limit of the UE 10 that can be accommodated by the eNB 100 due to a handover or the like, the service level of the corresponding eNB 100 can be set to be limited to a specific service . In addition, the MME 200 may also be configured such that when an error, a failure, or the like of a function capable of providing a specific service of the eNB 100 occurs, and the error or failure is reported, the eNB 100 does not provide a specific service You can set the service level to prevent it.

In order to continuously provide a specific service, every time the UE 10 moves, it is determined whether the UE 10 is a subscriber to the service, and whether the eNB 100 camped by the UE 10 can provide a specific service It should be judged whether or not it exists. According to the 3GPP standard, only the system capable of providing each of the LTE and LTE-A services is specified, and a system capable of providing all the services at the same time is not considered.

According to the embodiment of the present invention, when there is a handover request, the MME 200 determines whether or not the corresponding eNB 100 is set to provide a specific service according to the UE 10 ' And determines whether or not a specific service can be provided to the corresponding UE 10 as a basis.

If it is determined that the UE 10 can provide a specific service, the eNB 100 provides specific service support information. The specific service support information includes information necessary for setting a context for a specific service. Therefore, the eNB 100 sets the context for the UE 10 based on the received specific service support information. This means that the eNB 100 has set a context corresponding to a specific service for the UE 10, which means that the eNB 100 can provide a specific service to the UE 10. [ Accordingly, the MME 200 informs the SGW 300 and the PGW 400 that the corresponding eNB 100 provides the UE 10 with a specific service.

As described above, according to the movement of the UE 10, it is not necessary for the MME 200 to inquire whether or not to join the specific service of the UE 10 to the HSS 500 by determining whether a specific service is provided, . Thus, the performance of the entire system can be improved.

2 is a block diagram for explaining a schematic internal configuration of a mobility management server according to an embodiment of the present invention.

Referring to FIG. 2, the MME 200 includes an interface unit 210, a storage unit 220, and a control unit 230.

The interface unit 210 communicates with the eNB 100, the SGW 300, and the HSS 500 through different interfaces. The interface unit 210 transmits a message input from the control unit 230 to the eNB 100, the SGW 300 and the HSS 500 via the corresponding interface and transmits the message to the eNB 100, the SGW 300, the HSS 500, And transmits the message to the control unit 230. The interface unit 210 establishes an S1-MME interface with the eNB 100, establishes an S11 interface with the SGW 300, and establishes an S6a interface with the HSS 500 to communicate.

The storage unit 220 is for storing data and may store various kinds of data according to an embodiment of the present invention. For example, the storage unit 220 may store a Globally Unique Temporary Identifier (GUTI), location information, context, etc., allocated to the UE 10 served by the UE. In the initial access procedure of the UE 10, the service profile of the UE 10 is received from the HSS 500, and when the UE 10 is subscribed to a specific service, And stores specific service subscription information, which is information on a specific service, in a context. In addition, the storage unit 220 stores a cell group service level in which service levels for a plurality of eNBs 100 are set. The cell group service level is set to a service level that enables or disables a specific service for each eNB 100. Here, the service level can be set so that the specific eNB 100 can not provide a specific service according to the setting of the service provider. A limit value for accommodating the UE 10 is set for each eNB 100. The control unit 230 controls each of the eNBs 100 to perform the initial registration and handover of the UE 10, The number of UEs 10 accommodated by the UE 10 can be calculated. Therefore, it can be predicted that an overload will occur if an event such as an initial connection or a handover is generated and it is determined that the specific eNB 100 will accommodate the UE 10 exceeding the predetermined threshold, Can not be provided. In this case, the control unit 230 may set the service level so that the eNB 100 can not provide a specific service. In addition, when an error or a failure of a function capable of providing a specific service of the eNB 100 occurs and the error or failure is reported, the control unit 230 controls the eNB 100 to prevent the eNB 100 from providing a specific service You can set the service level.

The control unit 230 may control the overall operation of the MME 200 and the signal flow between the internal blocks of the MME 200 and may perform a data processing function for processing the data. The controller 230 may be a processor such as a central processing unit (CPU).

The control unit 230 may receive a handover request message including specific service subscription information from the source eNB 101 through the interface unit 210 at the time of handover. In this case, the control unit 230 determines whether the UE 10 can provide a specific service. At this time, the control unit 230 can determine whether or not a specific service can be provided to the UE 10 based on whether the target eNB 102 can provide a specific service. That is, the control unit 230 can confirm whether or not the UE 10 is subscribed to a specific service from the specific service subscription information stored in the storage unit 220. In addition, the control unit 230 can check whether the target eNB 102 can provide a specific service according to the cell group service level stored in the storage unit 220.

The control unit 230 transmits a handover request message including specific service support information to the target eNB 102 through the interface unit 210. [ The specific service support information includes information necessary for setting a context corresponding to a specific service (e.g., LTE-A). On the other hand, if the specific service can not be provided, the controller 230 transmits a handover request message including the normal service support information to the target eNB 102 through the interface unit 210. The normal service support information includes information necessary for setting a context corresponding to a normal service (e.g., LTE).

Therefore, the target eNB 102 will set the context according to whether the specific service support information is included in the handover request message or whether the normal service support information is included. For example, if normal service support information is included in the handover request message, the target eNB 102 sets the context according to the normal service support information, and performs a handover procedure according to a normal procedure. On the other hand, according to the embodiment of the present invention, if the handover request message includes specific service support information, the target eNB 102 will set the context according to the specific service support information. Then, the target eNB 102 transmits a handover request confirmation message to the MME 200 in response to the handover request message. Accordingly, when the handover request confirmation message is received in response to the handover request message including the specific service support information, the control unit 230 sets the context corresponding to the specific service with the target eNB 102 , And can confirm that the UE 10 can provide a specific service.

In addition, the target eNB 102 will send a handover notification message when the UE 10 moves from the source eNB 101 to the target eNB 102. Accordingly, when the handover notification message is received through the interface unit 210, the control unit 230 can confirm that the UE 10 has moved from the source eNB 101 to the target eNB 102. Accordingly, the control unit 230 transmits a specific service provision report together with the cell identifier of the target eNB 102 so that the SGW 300 and the PGW 400 can receive the specific service provision report. The specific service provision report indicates that the target eNB 102 establishes a context corresponding to the specific service and provides the UE 10 with a specific service. Accordingly, the SGW 300 and the PGW 400 receiving the specific service provision report can recognize that the target eNB 102 will provide the UE 10 with a specific service. The specific service provision report is included in the extension field of the bearer modification request message and transmitted to the SGW 300. In addition, the SGW 300 includes a specific service provision report in an extension field of a Modify Bearer Request message, and transmits the extended service provision report to the PGW 400.

3 is a block diagram illustrating a schematic internal structure of a base station according to an embodiment of the present invention.

Referring to FIG. 3, the eNB 100 includes an interface module 110, a communication module 120, a storage module 130, and a control module 140.

The interface module 110 is for communicating with other eNB 100, MME 200, PGW 400, and the like. The interface module 110 communicates with the other eNB 100 using the X2 interface, communicates with the MME 200 using the S1-MME interface, and communicates with the SGW 300 using the S1-U interface.

The communication module 120 performs communication with the UE 10 through the radio section. To this end, the communication module 120 may include a transmitter for up-converting and amplifying the frequency of a transmitted signal, a receiver for low-noise amplifying (LNA) the received signal, and down-converting the frequency. The communication module 120 may receive a signal through a wireless channel, output the signal to the control module 140, and transmit the signal output from the control module 140 through a wireless channel.

The storage module 130 is for storing data and may store various kinds of data according to an embodiment of the present invention. For example, the storage module 130 stores the context of the UE 10. The context of this UE 10 may include the specific service subscription information of the UE 10.

The control module 140 may control the overall operation of the eNB 100 and the signal flow between the internal blocks of the eNB 100 and may perform a data processing function for processing the data. The control module 140 may be a processor such as a central processing unit (CPU).

When the eNB 100 is the source eNB 101 at the time of handover of the UE 10, the control module 140 transmits the specific service subscription information to the target eNB 102 via the interface module 110, Lt; / RTI >

When the eNB 100 is the target eNB 102 at the time of handover of the UE 10, the control module 140 transmits a handover request message from the source eNB 101 via the interface module 110 . Then, the control module 140 checks whether the specific service support information is included in the handover request message or whether the normal service support information is included.

If the specific service support information is included in the handover request message, the control module 140 sets the context so that the UE 10 can provide a specific service according to the specific service support information. That is, the control module 140 sets the context corresponding to the specific service based on the specific service support information, and activates the function corresponding to the specific service. After the context corresponding to the specific service is set, the control module 140 transmits a handover request confirmation message to the MME 200 through the interface module 110. Accordingly, the MME 200 can confirm that the target eNB 102 will provide the UE 10 with a specific service.

On the other hand, if the normal service support information is included in the handover request message, the control module 140 sets the context so that the normal service can be provided to the UE 10 according to the normal service support information. In this case, the control module 140 will perform the remaining procedure according to a normal procedure, and a detailed description thereof will be omitted.

4 is a flowchart illustrating an initial connection procedure of a user apparatus according to an embodiment of the present invention.

First, the MME 200 according to the present invention acquires specific service subscription information for the UE 10 at the time of registering the initial location of the UE 10, and stores the subscription information in a user context (UE context).

Referring to FIG. 4, when the UE 10 is powered on, it starts an initial access procedure for first accessing a mobile communication network. For initial connection, the UE 10 selects one of the plurality of eNBs 100 and connects the radio section with the selected eNB 100 in step S110 (RRC Connection Establishment).

At this time, the UE 10 transmits an Attach Request message requesting an initial connection in step S115, and the connection request message is transmitted to the MME 200 via the eNB 100. [ The connection request message includes identification information and capability information of the UE 10. Here, the identification information may be an International Mobile Subscriber Identity (IMSI), a Globally Unique Temporary Identifier (GUTI), or an International Mobile Equipment Identity (IMEI), and may be an IMSI.

The MME 200 receiving the connection request message of the UE 10 proceeds with subscriber authentication and security setup for the UE 10 in step S120. The MME 200 obtains an authentication vector from the HSS 500 through the IMSI of the UE 10 and transmits a part of the authentication vector obtained from the HSS 500 to the UE 10 in step S120. . Then, the MME 200 and the UE 10 complete mutual authentication and security setting.

When the authentication and security setting procedure is completed, the MME 200 registers the UE 10 and confirms what services the UE 10 can use. To this end, the MME 200 must inform the HSS 500 that the UE 10 is connected to the MME 200 itself and is located in an area managed by the MME 200 itself. That is, the MME 200 transmits an Update Location Request message to the HSS 500 in step S125. The Update Location Request message includes an MME Identifier (MME ID) and a UE Identifier (IMSI).

The HSS 500 having received the Update Location Request message registers the location of the UE 10 in the MME 200 by mapping and storing the MME 200 identifier and the UE identifier.

The HSS 500 then extracts the service profile of the UE 10 and transmits an Update Location Answer message including the service profile to the MME 200 in step S130. A service profile is information indicating a service to which a user (or UE) subscribes. That is, the service profile includes specific service subscription information which is information on the specific service if the UE 10 is subscribed to a specific service (e.g., LTE-A). For example, the specific service subscription information includes an APN (Access Point Name) for a specific service subscribed by the user, identification information of the PGW 400 for accessing the APN, subscribed QoS profile information (UE-AMBR, QCI, ARP, APN-AMBR (UL / DL), etc.). The specific service subscription information may include a service identifier capable of distinguishing a specific service from other services.

The MME 200 stores the service profile received from the HSS 500 as a context in step S135 and indicates that the UE 10 is subscribed to a specific service in the context of the UE 10. [ Specific service subscription information is also stored.

As described above, after completing the location registration, the MME 200 establishes an EPS session allocated to the UE 10 in step S140 (EPS Session Establishment). That is, the MME 200 transmits a Create Session Request message to the SGW 300, and the SGW 300 transmits the session creation request message to the PGW 400. Accordingly, the PGW 400 transmits a Create Session Response message to the SGW 300, and the SGW 300 transmits the session response message to the MME 200. Accordingly, a S5 bearer between the SGW 300 and the PGW 400 allocated to the UE 10 is generated.

The MME 200 must transmit an Attach Accept message in response to the received Attach Request message (S115). This connection acknowledgment message is for informing that the connection request has been successfully made and will be transmitted to the UE 10 via the eNB 100. [

The MME 200 transmits an Initial Context Setup Request message to the eNB 100 in step S145 so as to perform a procedure for controlling the eNB 100 to allocate radio resources to the UE 10 . If the UE 10 is subscribed to a specific service according to the specific service subscription information and the eNB 100 is set to be able to provide a specific service according to the cell group service level, And information for setting the context of the UE 10, including the subscription information. Here, the specific service subscription information may be stored in a predetermined field of the SPID (Subscription Profile ID for RAT / Frequency Selection) of the initial context setup request message. In addition, the initial context setup request message includes an attach accept message.

The eNB 100 receiving the initial context setup request message sets up the context of the UE 10. In particular, the eNB 100 transmits the specific service subscription information collected through the initial context setup request message from the MME 200 and the performance information of the UE 10 collected through the connection request message (S115) . According to the comparison, when it is confirmed from the capability information of the UE 10 that the UE 10 can support a specific service according to the specific service subscription information, the UE 10 maps the specific service subscription information to the stored information do. Then, the eNB 100 activates a function corresponding to the specific service. For example, when a specific service is LTE-A, a carrier aggregation function is activated, and radio resources for UE 10 can be allocated using a plurality of carriers. In addition, it is possible to exchange information necessary for providing Coordinated Multi-Point ( CoMP ) function with the adjacent eNB 100, and to provide a wireless section service through CoMP technology.

On the other hand, the eNB 100, which has received the initial context setup request message, resets the radio link with the UE 10 in step S150. In step S150, the eNB 100 allocates radio area resources for communication according to the specific service subscription information, and connects a radio bearer (DRB) according to the allocated radio section resources. To this end, the eNB 100 transmits a RRC Connection Reconfiguration message to the UE 10. Although the RRC connection is established when the UE 10 transmits an Attach Request message in step S110, the RRC connection is now permitted to be established and the parameters are set again according to the resources allocated according to the specific service subscription information And reconfigures the radio link (RRC) connection by transmitting a RRC Connection Reconfiguration message. The RRC layer of the UE 10 allocates the radio resource using the configuration parameters received from the RRC Connection Reconfiguration message. In addition, the radio link connection reset message includes an attach accept message, whereby the UE 10 receives a connection acceptance message through a radio link connection re-establishment message. If the re-establishment procedure of the radio link is successfully completed, the UE 10 will transmit a RRC Connection Reconfiguration Complete message to the eNB 100 in step S155.

In response to the context setup request message, the eNB 100, which has received the RBAC re-establishment complete message, transmits an Initial Context Setup Response message indicating that the context setup for the UE 10 is completed in step S160 To the MME 200.

In step S165, the UE 10 transmits an Attach Complete message in response to the connection acceptance message to notify that the connection is completed. This connection completion message is transmitted to the MME 200 via the eNB 100. [

As described above, after the radio interval between the UE 10 and the eNB 100 is reset, the MME 200 sets a bearer between the eNB 100 and the SGW 300 in step S170. That is, the MME 200 transmits a Modify Bearer Request message to the SGW 300, and in response, the SGW 300 transmits a Modify Bearer Response message to the MME 200 By this transmission, an S1 bearer connection between the eNB 100 and the SGW 300 is established. Accordingly, the eNB 100 and the SGW 300 can transmit traffic to each other.

As described above, the location registration is performed in the specific MME 200 through the initial access procedure, and the UE 10 camped in the specific eNB 100 can move to another eNB 100. In this case, a method of processing the above-described specific service subscription information will be described.

5A to 5C are flowcharts for explaining a method for subscription information processing in handover according to an embodiment of the present invention. Here, when the UE 10 moves from the source eNB 101 to the target eNB 102, an indirect interface other than a direct connection between the source eNB 101 and the target eNB 102, i.e., S1 interface based handover and The related procedures are described. In particular, it is assumed that the UE 10 is camped in the source eNB 101 and the source eNB 101 is the eNB 100 in Fig.

Referring to FIG. 5A, a measurement event occurs and the UE 10 transmits a Measurement Report message including signal strength information of a neighboring cell measured in step S201 to a source eNB 101).

Upon receiving the measurement report, the source eNB 101 determines the target eNB 102 based on the signal strength information of the neighbor cell included in the measurement report message and the neighbor cell list managed by the source eNB 101 itself. At this time, if the source eNB 101 can not perform the handover using the X2 connection to the target eNB 102, the S1 eNB 101 determines S1 handover. For example, when the handover can not be performed using the X2 connection, the X2 interface may not be normally configured, or the X2 handover may be limited.

When the S1 handover is determined, the source eNB 101 transmits a handover request message to the MME 200 requesting handover to the target eNB 102 in step S202. The handover request message includes specific service subscription information indicating that the UE 10 is subscribed to a specific service. In more detail, the eNB 100 of FIG. 4, that is, the source eNB 101 of FIG. 5 receives the initial context setup request message in step S145, and transmits the initial context setup request message to the UE 10 ) Has registered the specific service subscription information indicating that it is subscribed to a specific service. According to the embodiment of the present invention, the source eNB 101 transmits the stored specific service subscription information of the UE 10 via the handover request message requesting the handover to the target eNB 102. [

Upon receipt of the specific service subscription information through a handover required message, the MME 200 determines whether a specific service can be provided in step S203. In order to provide a specific service to the UE 10, the UE 10 must be subscribed to the specific service and the target eNB 102 must be able to provide the specific service.

The MME 200 can confirm whether or not the UE 10 joins a specific service from the specific service subscription information of the context stored at the initial connection of the UE 10. [ The MME 200 determines whether or not the UE 10 is subscribed to a specific service through the specific service subscription information that the MME 200 stores separately from the specific service subscription information received from the source eNB 101. [

In addition, the MME 200 stores a cell group service level in which a service level for a plurality of eNBs 100 connected to the MME 200 is set. The cell group service level is set to a service level that enables or disables a specific service for each eNB 100. The MME 200 can check whether the target eNB 102 is set to provide a specific service from the pre-stored cell group service level.

If the target eNB 102 can provide a specific service to the UE 10, the MME 200 transmits a handover request message including specific service support information to the target eNB 102 in step S204, And requests handover instead of the source eNB 101. [ In order for the target eNB 102 to provide a specific service to the UE 10, a context corresponding to a specific service must be set. Therefore, the specific service support information includes specific service subscription information indicating that the UE 10 is subscribed to a specific service, and information necessary for setting a context corresponding to the specific service. In addition, the handover request message includes the E-RAB ID assigned to the source eNB 101 and the S1 UL TEID.

On the other hand, if the UE 10 is not set to be able to provide a specific service, the MME 200 transmits a handover request message including normal service support information to the target eNB 102 in step S204 . The normal service support information includes information for setting a context for a normal service (e.g., LTE).

Upon receiving the handover request message, the target eNB 102 checks whether the specific service support information is included in the handover request message.

If the handover request message includes specific service support information, the target eNB 102 will set the context for the UE 10 according to the specific service support information. Thereby, the target eNB 102 can provide a specific service for the UE 10. [ A specific service may exemplify CA (Carrier Aggregation) and Coord (Coordinate Multi-Point) functions. On the other hand, if the specific service support information is not included in the handover request message and normal service support information is included, the target eNB 102 will set a context corresponding to the normal service. In this case, the remaining procedure is performed according to a conventional procedure, and a detailed description thereof is omitted.

On the other hand, the target eNB 102 receiving the S1 UL TEID through the handover request message can set up the SGS 300 and the uplink S1 bearer. Then, the target eNB 102 allocates a downlink S1 bearer identifier (S1 DL TEID) for establishing a downlink S1 bearer, and allocates a data radio bearer identifier (DRB ID) for setting a DRB. In addition, the target eNB 102 assigns a tunnel identifier (S1 Target eNB TEID) to generate an indirect data transmission tunnel with the SGW 300 as a start point and the target eNB 102 as an end point. Then, in step S205, a Handover Request Acknowledge message will be transmitted to the MME 200. The handover request confirmation message includes an identifier (ECGI) of the target eNB 102 itself, a DRB ID for setting the E-RAB ID and DRB, and an S1 DL TEID for setting a downlink S1 bearer. In addition, the handover request confirmation message includes an S1 Target eNB TEID for generating an indirect data transmission tunnel with the SGW 300 as a start point and the target eNB 102 as an end point.

The MME 200 receiving the handover request confirmation message can confirm that the target eNB 102 can provide the UE 10 with a specific service. Then, the MME 200 extracts the S1 DL TEID for setting the downlink S1 bearer from the handover request confirmation message, and stores the extracted. In step S206, the MME 200 transmits a Create Indirect Data Forwarding Tunnel Request message including the S1 Target eNB TEID to the SGW 300. The SGW 300 having received the S1 Target eNB TEID through the indirect data transmission tunnel creation request message can set up the indirect data transmission tunnel in the direction of making the target eNB 102 as the end point. Then, the SGW 300 allocates a tunnel identifier (S1 SGW TEID) for generating an indirect data transmission tunnel in the direction of the SGW 300 as an end point with the source eNB 101 as a starting point, and then, in step S207, To the MME 200, a Create Indirect Data Forwarding Tunnel Response message including the Indirect Data Forwarding Tunnel Response message.

Next, the MME 200 transmits a handover command message to the source eNB 101 in step S208. The handover command includes the DRB ID allocated earlier by the target eNB 102 and the S1 SGW TEID. Upon receiving the S1 SGW TEID through the handover command message, the source eNB 101 establishes an indirect data transmission tunnel in the direction of the SGW 300 as an end point.

Then, the source eNB 101 transmits a Handover Command message including the DRB ID assigned by the target eNB 102 to the UE 10 in step S209. In step S210, the source eNB 101 transmits an eNB Status Transfer message including the packet transmission order to the MME 200. In step S211, the source eNB 101 transmits the eNB status transfer message to the MME 200 (MME Status Transfer) message to the target eNB 102 to inform which packet the target eNB 102 should transmit to and receive from the UE 10. [

When the source eNB 101 receives the downlink packet through the downlink S5 bearer and the downlink S1 bearer established before the handover, the source eNB 101 starts the source eNB 101 as the start point and the end point as the end point of the SGW 300 It is possible to transmit the downlink packet through the indirect data transmission tunnel of FIG. Then, the SGW 300 can forward the downlink packet to the target eNB 102 through the indirect data transmission tunnel with the SGW 300 as the start point and the target eNB 102 as the end point.

On the other hand, the UE 10 which has received the handover command message moves from the source eNB 101 to the target eNB 102. In step S212, the UE 10 detects a synchronization signal of the target eNB 102 and synchronizes with the target eNB 102, thereby performing non-contention-based random access do. Then, in step S213, the target eNB 102 allocates an uplink transmission resource to the UE 10 (UL allocation). Through this procedure, the DRB between the UE 10 and the target eNB 102 is set using the previously received DRB ID. In step S214, the UE 10 transmits a Handover Confirm message to the target eNB 102 through a RRC Connection Reconfiguration Complete message.

When the uplink and downlink DRBs are established between the UE 10 and the target eNB 102 and the handover request message including the S1 UL TEID is received (S209), the target eNB 102 and the SGW 300 ) Is set in the uplink S1 bearer. Next, the downlink S1 bearer between the target eNB 102 and the SGW 300 must be established in the handover procedure.

Therefore, the target eNB 102 transmits a Handover Notify message in step S215 to notify that the UE 10 has been handed over from the source eNB 101 to the target eNB 102 and to change the path of the EPS bearer request.

The MME 200 receiving the handover notification message can confirm that the target eNB 102 has completed the context setting for the specific service in step S216.

When the target eNB 102 confirms that the target eNB 102 has completed the context setting for the specific service through the handover notification message, the MME 200 notifies the SGS 300 that the target eNB 102 will provide the UE 10 with a specific service ) And PGW (400). In other words, in order to provide a specific service, the target eNB 102 must set a context corresponding to a specific service. The MME 200 informs the SGW 300 and the PGW 400 that the target eNB 102 has set the context corresponding to the specific service for the UE 10 and will provide the UE 10 with a specific service . To this end, the MME 200 sets the cell identifier (ECGI) of the target eNB 102 and the target eNB 102 to a context corresponding to the specific service for the UE 10, To the SGW 300 and the PGW 400, a specific service provision report indicating that the provision of the service will be provided.

That is, the MME 200 transmits a Modify Bearer Request message including a cell identifier (ECGI) of the target eNB 102 and a specific service provision report to the SGW 300 in step S216. Accordingly, the SGW 300 may recognize that the target eNB 102 will provide a specific service for the UE 10. [ In step S217, the SGW 300 transmits a Modify Bearer Request message including a cell identifier (ECGI) of the target eNB 102 and a specific service provision report to the PGW 400. [ Accordingly, the PGW 400 may recognize that the target eNB 102 will provide a specific service for the UE 10. [ Thus, although not shown, the PGW 400 may provide the UE 10 with a specific service (e. G., An e-mail message) as an integrated billing system that stores the cell identifier (ECGI) of the target eNB 102 and a particular service delivery report and collects information for billing May be provided.

Next, in step S218, the PGW 400 transmits a Modify Bearer Response message to the SGW 300 in response to the previously received Modify Bearer Request message. In step S219, the SGW 300 transmits a Modify Bearer Response message to the MME 200 in response to the previously received Modify Bearer Request message. An S1 bearer may be established between the target eNB 102 and the SGW 300 through the exchange of the Modify Bearer Request message and the Modify Bearer Response message described above.

As described above, after the handover is completed, the MME 200 transmits a UE Context Release Command message to the source eNB 101 in step S220, (10). The source eNB 101 cancels the resources and the context, and transmits a UE Context Release Complete message to the MME 200 in step S221.

In step S222, the MME 200 transmits a Delete Indirect Data Forwarding Tunnel Request message to the SGW 300 to allow the SGW 300 to release the indirect data transmission tunnel. After releasing the indirect data transmission tunnel, the SGW 300 transmits a Delete Indirect Data Forwarding Tunnel Response message to the MME 200 in step S223.

6 is a flowchart illustrating a method for processing subscription information of a mobility management server according to an embodiment of the present invention.

Referring to FIG. 6, it is assumed that the source eNB 101 is currently providing a specific service (e.g., LTE-A) to the UE 100. The source eNB 101 determines the target eNB 102 according to the measurement report message and then determines the S1 handover when the target eNB 102 can not perform the handover using the X2 connection. The source eNB 101 will then send a handover request message to the MME 200 requesting a handover to the target eNB 102. In particular, the source eNB 101 transmits the handover request message including the specific service subscription information of the UE 10.

Accordingly, the control unit 230 of the MME 200 receives the handover request message including the specific service subscription information from the source eNB 101 through the interface unit 210 in step S310.

Upon receiving the handover request message including the specific service subscription information, the controller 230 determines whether the UE 10 can provide a specific service in step S320. In order to provide a specific service to the UE 10, the UE 10 must be subscribed to the specific service and the target eNB 102 must be able to provide the specific service. The controller 230 can confirm whether or not the UE 10 is subscribed to a specific service based on the specific service subscription information stored in the storage unit 220. In addition, the control unit 230 can determine whether the target eNB 102 can provide a specific service from the cell group service level stored in the storage unit 220. [

As a result of the determination in step S320, if the control unit 230 can provide a specific service to the UE 10, the process proceeds to step S330. If the specific service can not be provided, the control unit 230 proceeds to step S370.

If the UE can provide a specific service, the controller 230 transmits a handover request message through the interface 210 in step S330. The handover request message includes specific service support information, and the specific service support information includes information necessary for setting a context corresponding to a specific service.

The target eNB 102 receiving the specific service support information determines whether or not a specific service can be provided to the UE 10. If the target eNB 102 can support the specific service, the target eNB 102 sets the context according to the specific service support information. In this case, the target eNB 102 will send a handover request confirmation message to the MME 200 in response to the handover request.

Accordingly, the control unit 230 of the MME 200 receives the handover request confirmation message through the interface unit 210 in step S340.

Upon receipt of the handover request confirmation message, the control unit 230 of the MME 200 confirms that the target eNB 102 sets a context corresponding to a specific service and can provide a specific service to the UE 10 have. The control unit 230 waits until a handover notification message is received in step S350. A detailed description of the handover failure processing in the case where the handover notification message is not received is omitted.

After receiving the handover notification message, the controller 230 transmits a specific service provision report together with the cell identifier of the target eNB 102 in step S360 so that the SGW 300 and the PGW 400 can receive the specific service provision report . The specific service provision report indicates that the target eNB 102 establishes a context corresponding to the specific service and provides the UE 10 with a specific service. Accordingly, the SGW 300 and the PGW 400 receiving the specific service provision report can recognize that the target eNB 102 will provide the UE 10 with a specific service. The specific service provision report is included in the extension field of the bearer modification request message and transmitted to the SGW 300. In addition, the SGW 300 includes a specific service provision report in an extension field of a Modify Bearer Request message, and transmits the extended service provision report to the PGW 400.

On the other hand, if it is determined in step S320 that the UE can not provide a specific service, the controller 230 proceeds to step S370. In step S370, the controller 230 transmits a handover request message including normal service support information to the target eNB 102 through the interface unit 210, and the target eNB 102 transmits a normal service Thereby setting the context for the UE 10 and providing the UE 10 with a normal service. In this case, the control unit 230 performs the remaining S1 handover procedure according to a normal procedure.

7 is a flowchart illustrating a method for processing subscription information of a target BS according to an embodiment of the present invention.

It is assumed in FIG. 7 that the source eNB 101 is currently providing a specific service (e.g., LTE-A) to the UE 100. It is assumed that the source eNB 101 has transmitted to the MME 200 a handover request message including the specific service subscription information of the UE 10 to the target eNB 102. [ At this time, if the MME 200 determines that the target eNB 102 can provide a specific service, the MME 200 will transmit a handover request message including specific service support information to the target eNB 102. On the other hand, if the MME 200 determines that the target eNB 102 can not provide a specific service, it will send a handover request message including the normal service support information to the target eNB 102.

Accordingly, the control module 140 of the target eNB 102 can receive the handover request message from the MME 200 through the interface module 110 in step S410. Upon receiving the handover request message, the control module 140 checks whether the specific service support information is included in the handover request message or whether normal service support information is included in the handover request message in step S420.

If it is determined in step S420 that the specific service support information is included in the handover request message, the control module 140 controls the context . That is, the control module 140 sets the context corresponding to the specific service based on the specific service support information, and activates the function corresponding to the specific service. For example, when a specific service is LTE-A, such a function may be CA (Carrier Aggregation), Coordinated Multi-Point (CoMP), or the like.

After setting a context corresponding to a specific service, the control module 140 transmits a handover request confirmation message to the MME 200 through the interface module 110 in step S440. Accordingly, the MME 200 can confirm that the target eNB 102 will provide the UE 10 with a specific service. After the handover procedure is performed and the UE 10 moves from the source eNB 101 to the target eNB 102, the control module 140 transmits a handover notification via the interface module 110 at step S450 Message to the MME 200.

On the other hand, if it is determined that the specific service support information is not included in the handover request message and the normal service support information is included in the handover request message, the control module 140 transmits the normal service support information to the UE 10 (E. G., LTE). ≪ / RTI > Then, the control module 140 performs the remaining procedure according to a normal procedure.

The method for processing subscription information according to an embodiment of the present invention as described above may be provided in the form of a computer-readable medium suitable for storing computer program instructions and data. At this time, a computer-readable medium suitable for storing computer program instructions and data includes, for example, a magnetic medium such as a hard disk, a floppy disk and a magnetic tape, a compact disk read only memory (CD-ROM) Optical media such as a DVD (Digital Video Disk), a magneto-optical medium such as a floppy disk, and a ROM (Read Only Memory), a RAM , Random Access Memory), flash memory, EPROM (Erasable Programmable ROM), and EEPROM (Electrically Erasable Programmable ROM). The processor and memory may be supplemented by, or incorporated in, special purpose logic circuits. Examples of program instructions may include machine language code such as those generated by a compiler, as well as high-level language code that may be executed by a computer using an interpreter or the like. Such a hardware device may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

While the specification contains a number of specific implementation details, it should be understood that they are not to be construed as limitations on the scope of any invention or claim, but rather on the description of features that may be specific to a particular embodiment of a particular invention Should be understood. Certain features described herein in the context of separate embodiments may be implemented in combination in a single embodiment. Conversely, various features described in the context of a single embodiment may also be implemented in multiple embodiments, either individually or in any suitable subcombination. Further, although the features may operate in a particular combination and may be initially described as so claimed, one or more features from the claimed combination may in some cases be excluded from the combination, Or a variant of a subcombination.

Likewise, although the operations are depicted in the drawings in a particular order, it should be understood that such operations must be performed in that particular order or sequential order shown to achieve the desired result, or that all illustrated operations should be performed. In certain cases, multitasking and parallel processing may be advantageous. Also, the separation of the various system components of the above-described embodiments should not be understood as requiring such separation in all embodiments, and the described program components and systems will generally be integrated together into a single software product or packaged into multiple software products It should be understood.

It should be noted that the embodiments of the present invention disclosed in the present specification and drawings are only illustrative of specific examples for the purpose of understanding and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

The present invention relates to an apparatus and method for processing subscription information in a wireless communication system. According to the 3GPP standard, only the system capable of providing each of the LTE and LTE-A services is specified, and a system capable of providing all the services at the same time is not considered. Therefore, when the UE performs the handover, the source eNB provides the specific service subscription information, and the receiving MME provides the specific service to the target eNB through the cell group service level and the specific service subscription information stored therein You can check whether you can. If the UE is subscribed to a specific service and the target eNB is set to provide a particular service, the MME provides specific service support information to the target eNB. Then, the target eNB sets the context according to the specific service support information and provides a specific service to the UE. The MME also informs the SGW and the PGW that the target eNB is providing the UE with a particular service. According to the present invention, the HSS does not need to inquire whether the UE is subscribed to a specific service, and the traffic to the home subscriber server is reduced, so that the performance of the entire system can be improved. In addition, the MME informs the SGW and the PGW that the target eNB provides the UE with a specific service. As a result, it can be utilized as information for charging for a specific service. This is not only a possibility of commercialization or sales, but also a possibility of being industrially applicable since it is practically possible to carry out clearly.

100: base station, eNB 110: interface module
120: communication module 130: storage module
140: control module 200: mobility management server, MME
210: interface unit 220: storage unit
230: Control section 300: Serving gateway, SGW
400: packet gateway, PGW 500: home subscriber server, HSS
600: subscriber policy management server, PCRF

Claims (8)

An interface unit receiving a specific service subscription information of a user equipment through a handover request message requesting a handover to a target base station by a source base station;
A storage unit for storing a cell group service level in which the availability of a specific service to a plurality of base stations is recorded; And
If the target base station is a base station configured to provide a specific service to which the user equipment subscribes, based on the cell group service level stored in the storage unit, a handover including specific service support information And a controller for transmitting a request message to the target BS through the interface unit. The method according to claim 1,
The control unit
If the target BS can provide the specific service, if the target BS can provide the specific service, a specific service provision report is transmitted through the interface unit so that the target serving gateway and the packet gateway recognize that the target BS provides the specific service The mobility management server for processing the subscription information. 3. The method of claim 2,
The control unit
A bearer modification request message including the specific service provision report is transmitted to the serving gateway and the serving gateway transmits a bearer modification request message including the specific service provision report to the packet gateway in the extension field The mobility management server for processing the subscription information. The method according to claim 1,
The storage unit
Further storing specific service subscription information received from the home subscriber server at the initial connection of the user equipment,
The control unit
If it is determined that the user equipment is subscribed to the specific service through the specific service subscription information received from the home subscriber server and the base station is configured to provide the specific service according to the cell group service level, And determines that a specific service can be provided. delete Storing a cell group service level at which a specific service can be provided to a plurality of base stations;
Receiving, by a source base station, specific service subscription information of a user equipment through a handover request message requesting handover to a target base station;
Checking whether the target base station is a base station configured to provide a specific service to which the user equipment subscribes, through the pre-stored cell group service level; And
And transmitting a handover request message including specific service support information to the target BS so as to set a context according to the specific service, if the specific service can be provided, The mobility management server comprising: The method according to claim 6,
After the confirming step,
And transmitting a specific service provision report so that the target serving gateway and the packet gateway recognize that the target base station sets a context corresponding to the specific service if the specific service can be provided. A method of processing the subscription information of a management server. delete

Images