KR20110115516A - Apparatus and method for handover in mobile communication system - Google Patents

Abstract

The present invention relates to a handover in a mobile communication system. The operation of a gateway includes: receiving a message indicating a handover of a UE from a base station; determining whether the gateway can be an end of the handover; Performing the handover procedure as an end of the handover.

Description

Apparatus and method for handover in mobile communication system {APPARATUS AND METHOD FOR HANDOVER IN MOBILE COMMUNICATION SYSTEM}

The present invention relates to a mobile communication system, and more particularly, to an apparatus and method for performing a handover in a mobile communication system.

Long Term Evolution (LTE) technology is one of the technologies of a 3rd generation (3G) mobile communication system, and has advantages such as increasing cell capacity and reducing system delay.

1 schematically illustrates the structure of an LTE system. Referring to FIG. 1, an Evolved-Universal Terrestrial Radio Access Network (E-UTRAN) 110 of an LTE system includes radio resource management objects such as a macro base station 120 and a small base station 130. (gateway) 140 may further include. The macro base station 120 may be referred to as an eNB (eNodeB), and the small base station 130 may be referred to as a HeNB (Home eNB). When the small base station gateway 140 is not included, the small base station 130 may be directly connected to a mobile management entity (MME) 150 in a core network. When the small base station gateway 140 is included, the small base station 130 is connected to the MME 150 through the small base station gateway 140. The MME 150 is an important object in the core network, and implements functions such as radio access bearer setup, mobility management, and the like.

In a mobile communication system, in order to provide better service to a particular subscriber, multiple radio resource management objects may generally be grouped into a closed subscriber group (CSG) for a particular user group. For example, multiple radio resource management objects may be grouped into a CSG to provide a particular access service and serve for a particular subscriber group consisting of all subscribers in a company or school.

In order to provide a better access service, as shown in FIG. 1, the radio resource management object of the LTE system may include various types. For example, the HeNB may have an open type, a hybrid type, a CSG type, or the like. An open HeNB is not specific to a particular subscriber group and may be connected by all UEs. The CSG type HeNB is located in the corresponding CSG and allows only access by UEs belonging to the specific subscriber group. The hybrid HeNB supports the function of the CSG and allows both access of UEs belonging to a specific subscriber group and access of UEs not belonging to a specific subscriber group.

The UE may move between different HeNBs through handover. 2 illustrates a handover procedure in a mobile communication system according to the prior art. In FIG. 2, the present invention assumes that the small base stations are connected to the MME through the small base station gateway.

Referring to FIG. 2, in step 201, the source small base station 220 transmits a handover required message to the small base station gateway 240. In step 203, the small base station gateway 240 transmits a handover request message to the MME 250. In step 205, the MME 250 transmits a handover request message to the small base station gateway 240, and the small base station gateway 240 requests a handover to a target small base station 230. Send the message. The source small base station 220 is a small base station that originally provides a service to the UE 210, and the target small base station 230 is a small base station to which the UE 210 will hand over. The target small base station may be referred to as a destination small base station. In step 207, the target small base station 230 allocates resources to the UE 210, and transmits a handover request ACK (ACKnowledge) to the small base station gateway 240. The small base station gateway 240 transmits the handover request ACK to the MME 250. In step 209, the MME 250 transmits a handover command message to the small base station gateway 240, and the small base station gateway 240 sends a handover command message to the source small base station 220. Send. In step 211, the source small base station 220 transmits a handover command message to the UE 210. In step 213, the UE 210 synchronizes with the target cell and transmits a handover confirmation message to the target small base station 230. In step 215, the target small base station transmits a handover notification message to the small base station gateway 240, and the small base station gateway 240 transmits a handover notification message to the MME 250. In step 217, the MME 250 transmits a bearer update request message to the Serving Gateway / Packet Data Network Gateway (S-GW / PDN_GW) 260. The S-GW provides a function of a user plane. The PND_GW is in charge of charging, LI (Lawful Interception), and the like. The S-GW and the PDN_GW may be physically included in the same object or may be composed of separate objects. In FIG. 2, signaling between the S-GW and the PDN_GW is omitted. In step 219, the S-GW / PDN_GW 260 transmits a bearer update response message to the MME 250. In step 221, a tracking area update (TAU) is performed. In step 223, the MME 250 transmits a UE context release command message to the small base station gateway 240, and the small base station gateway 240 sends a UE to the source small base station 220. Send a context release command message. In step 225, the source small base station 220 transmits a UE context release complete message to the small base station gateway 240, and the small base station gateway 240 sends a UE to the MME 250. Send a context release completion message.

Handover may be performed through the procedure as described above. However, since each handover is performed through the MME, due to the large number of HeNBs, i.e., handovers of small base stations and frequent UEs, a large computational load is placed on the core network side and the handover efficiency is reduced. There is a problem.

Accordingly, an object of the present invention is to provide an apparatus and method for reducing the computational load of a core network due to handover in a mobile communication system.

Another object of the present invention is to provide an apparatus and method for increasing handover efficiency in a mobile communication system.

Another object of the present invention is to provide an apparatus and method for controlling a gateway to operate as a handover end in a mobile communication system.

Another object of the present invention is to provide an apparatus and method for determining whether a gateway can operate as a handover end in a mobile communication system.

According to a first aspect of the present invention for achieving the above object, a method of operating a gateway in a mobile communication system, receiving a message indicating the handover of the UE from a base station, and the gateway is to be the end of the handover Determining whether it is possible, and performing the handover procedure as an end of the handover.

According to a second aspect of the present invention for achieving the above object, the operation method of the MME in a mobile communication system, the process of receiving a message indicating the initial connection of the UE through a gateway, the gateway to the gateway to the gateway of the UE And transmitting reference information necessary for determining whether the terminal can be a handover termination.

According to a third aspect of the present invention for achieving the above object, in a mobile communication system, a gateway device includes a communication unit for receiving a message indicating a handover of a UE from a base station, and whether the gateway can be an end of the handover. And determining and performing a handover procedure as an end of the handover.

According to a fourth aspect of the present invention for achieving the above object, an MME device in a mobile communication system, the communication unit for receiving a message indicating the initial connection of the UE through a gateway, the gateway to the gateway handover of the UE to the gateway And a control unit for controlling to provide reference information necessary for determining whether the terminal can be terminated.

For the handover of the UE moving between the small base stations in the mobile communication system, since the gateway plays the role of handover termination, the computation amount of the core network can be distributed and the handover efficiency can be increased.

1 is a diagram schematically showing the structure of an LTE system;
2 is a diagram illustrating a handover procedure in a mobile communication system according to the prior art;
3A is a diagram illustrating a procedure for providing indication information of handover termination determination to a gateway in a mobile communication system according to a first embodiment of the present invention;
3B is a diagram illustrating a S1 setting procedure in a mobile communication system according to an embodiment of the present invention;
4 is a diagram illustrating a procedure for providing indication information of handover termination determination to a gateway in a mobile communication system according to a second embodiment of the present invention;
5 is a diagram illustrating a procedure for updating handover end related information in a mobile communication system according to an embodiment of the present invention;
6 is a diagram illustrating a handover procedure in a mobile communication system according to a first embodiment of the present invention;
7 is a diagram illustrating a handover procedure in a mobile communication system according to a second embodiment of the present invention;
8 is a diagram illustrating a handover procedure in a mobile communication system according to a third embodiment of the present invention;
9 is a diagram illustrating a procedure for providing at least one of UE location change report activity information and CSG information report activity information to a gateway in a mobile communication system according to the first embodiment of the present invention;
10 is a diagram illustrating a procedure for providing at least one of UE location change report activity information and CSG information report activity information to a gateway in a mobile communication system according to a second embodiment of the present invention;
11 is a diagram illustrating a procedure of updating at least one of UE location change report activity information and CSG information report activity information in a mobile communication system according to an embodiment of the present invention;
12 is a diagram illustrating a handover procedure in a mobile communication system according to a fourth embodiment of the present invention;
13 is a diagram illustrating a handover procedure in a mobile communication system according to a fifth embodiment of the present invention;
14 is a diagram illustrating a handover procedure in a mobile communication system according to a sixth embodiment of the present invention;
15 is a diagram illustrating a handover procedure in a mobile communication system according to a seventh embodiment of the present invention;
16 is a diagram illustrating a handover procedure in a mobile communication system according to an eighth embodiment of the present invention;
17 is a diagram illustrating a handover procedure in a mobile communication system according to a ninth embodiment of the present invention;
18 is a block diagram of a small base station in a mobile communication system according to an embodiment of the present invention;
19 is a block diagram of a gateway in a mobile communication system according to an embodiment of the present invention;
20 is a block diagram of an MME in a mobile communication system according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Hereinafter, a description will be given of a technique for performing handover in a mobile communication system. For convenience of description below, the present invention uses the terms and names defined in the LTE standard. However, the present invention is not limited to the above terms and names, and the present invention can be equally applied to a system employing other standards.

The present invention has the following features.

(1) The MME located in the core network determines whether the gateway can be a handover termination, and notifies the gateway of the determination result. If the gateway is able to be a handover termination as a result of the determination, the gateway receiving the message indicating the handover of the UE processes the handover in a manner of terminating at the gateway. On the other hand, if the gateway cannot be a handover end as a result of the determination, the gateway processes the handover in a manner that is not terminated at the gateway.

(2) The MME located in the core network transmits at least one of UE location change reporting action information and CSG information reporting action information to the gateway. The gateway determines whether the gateway can be a handover end based on at least one of the received UE location change report activity information and the CSG information report activity information. If it is determined that the gateway can be a handover end, the gateway receiving the message indicating the handover of the UE processes the handover in a manner of terminating at the gateway. On the other hand, if it is determined that the gateway cannot be a handover end, the gateway processes the handover in a manner that is not terminated at the gateway.

In the embodiments of the present invention described below, the present invention will be described taking as an example a UE handing over between small base stations. Thus, the gateway described below includes a small base station gateway. However, the present invention can be applied to handover between conventional base stations. Further, the present invention can be equally applied even when the base station is connected to the MME through a gateway or the base station is connected to another radio resource management object.

A handover according to an embodiment of the aforementioned feature (1), that is, the MME determines whether the gateway can be a handover termination and notifies the gateway of the determination result is as follows.

3A illustrates a procedure of providing indication information of handover termination determination to a gateway in a mobile communication system according to a first embodiment of the present invention.

Referring to FIG. 3A, in step 301, the UE 310 transmits a non-access stratum (NAS) message, such as an attach message, to the small base station 320. Since the information transmitted by the access message is not related to the present invention, a detailed description thereof will be omitted. In step 303, the small base station 320 transmits an S1AP (S1 Access Protocol) message, such as an initial UE message, to the small base station gateway 340, and the small base station gateway 340 sends an MME 350 to the small base station gateway 340. Send the initial UE message. When the cell connected by the UE 310 is CSG type or complex type, the initial UE message may include a CSG identifier. Hereinafter, the small base station 320 is a small base station to which the UE 310 is connected.

In step 305, the MME 350 transmits a location update request message to a home subscriber server (HSS) 370. When the MME 350 does not have valid information of the UE 310, the MME 350 is not an MME to which the UE 310 has previously connected. For example, when the MME is changed or the situation defined in the standard (eg TS23.401) is satisfied. In this case, the MME 350 transmits a location update request message to the HSS 370. In step 307, the HSS 370 transmits a location update response message including UE subscription information of the UE 310 to the MME 350. The UE subscription information may include CSG subscription data including information such as CSG and validity time that the UE 310 can access. However, steps 305 and 307 are performed when the MME 350 does not have valid UE 310 information. Therefore, when the MME 350 already has valid information of the UE 310, steps 305 and 307 may be omitted.

In step 309, the MME 350 transmits a session creation request message to the S-GW / PDN_GW 360. In FIG. 3, signaling between the S-GW and the PDN_GW is omitted. In step 311, the S-GW / PDN_GW 360 transmits a session creation response message to the MME 350. Since the process of the S-GW / PDN_GW 360 establishing a session is not directly related to the present invention, the present invention will not be described. According to an embodiment of the present disclosure, at least one of UE location change report activity information and CSG information report activity information may be included in the session creation response message. The content of the UE location change report activity information may include: stopping reporting, initiating reporting of CGI (Cell Global Identifier) / SAI (Service Area Identifier), initiating reporting of Evolved Cell Global Identifier (ECGI), and TAI ( It may include at least one of reporting start of Tracking Area Identifier (RAI), reporting start of Routing Area Identifier (RAI), reporting start of ECGI and TAI, and reporting start of CGAI / SAI and RAI. The contents of the CSG information reporting activity information may be reported or non-reported when the UE enters / leaves / accesses the CSG cell, and enters / leaves / accesses the composite cell to which the UE is subscribed. Time reporting or non-reporting, the UE may include at least one of reporting or non-reporting when entering / leaving / accessing the composite cell is not subscribed. Detailed description of the UE location change reporting activity and the CSG information reporting activity is omitted. The MME 350 stores at least one of the UE location change report activity information and the CSG information report activity information, and performs a corresponding operation.

In step 313, the MME 350 determines that the downlink node is the small base station gateway 340. Here, the MME 350 may determine that the downlink node is the small base station gateway 340 through the following process. According to an embodiment of the present invention, before exchanging information, the MME 350 and the small base station gateway 340 first perform an S1 setup procedure. At this time, the small base station gateway 340 transmits its own identification information (for example, small base station gateway ID) to the MME 350, the MME 350, the downlink node is the small base station through the identification information; It may be determined as the gateway 340. If the downlink node is a base station or a small base station, the downlink node may also be determined through corresponding identification information. According to another embodiment of the present invention, during the S1 setting process, the small base station gateway 340 sets the S1 including a tracking area (TA) list supported by the small base station gateway 340 to the MME 350. Send the request message. The TA list supported by the small base station gateway 340 is a special one, and thus, the MME 350 may determine that the downlink node is the small base station gateway 340 through the TA list. According to another embodiment of the present invention, during the S1 setup process, the small base station gateway 340 indicates to the MME 350 a base station type indicator (base station) indicating that the downlink node is the small base station gateway 340. S1 configuration request message including a type indication) can be transmitted. 3B illustrates an S1 setting procedure in a mobile communication system according to an embodiment of the present invention. Referring to FIG. 3B, in step 391, the small base station gateway transmits an S1 setup request message to the MME. Here, the S1 setup request message includes a base station type indication indicating that a downlink node is the small base station gateway. In step 393, the MME transmits an S1 setup response message to the small base station gateway. In the procedure shown in FIG. 3B, the small base station gateway may be replaced with a small base station or a base station.

In step 315, the MME 350 determines whether the small base station gateway 340 can be a handover termination. At this time, the MME 350 is based on whether at least one of the UE location change report activity information and the CSG information report activity information is received, and at least one of the UE location change report activity information and CSG information report activity information. It may be determined whether the small base station gateway 340 may be a handover termination. For example, if at least one of the UE location change report activity information and the CSG information report activity information is not received, it may be determined that the small base station gateway 340 may be a handover end. In addition, the UE location change report activity information is received and the content of the UE location change report activity information includes the stop reporting, the CSG information report activity information is received and the content of the CSG information report activity information is the UE CSG type When not entering / deleting / connecting to a cell, when not entering / deleting / connecting to a combined cell to which a UE is subscribed, and when the UE includes not entering / deleting / connecting to a non-subscribed hybrid cell, the small It may be determined that the base station gateway 340 may be a handover termination. On the other hand, the UE location change report activity information is received and the content of the UE location change report activity information includes the report non-stop such as ECGI report initiation, the CSG information report activity information is received and the If the content includes reporting when the UE enters / leaves / connects to the CSG-type cell, reports when the UE enters / leaves / connects to the combined cell to which the UE is subscribed, and reports the UE enters / leaves / connects to the unsubscribed hybrid cell, It may be determined that the small base station gateway 340 cannot be a handover termination.

In step 317, the MME 350 transmits an initial context setup request message to the small base station gateway 340. The initial context setup request message includes a list of accessible CSGs of the UE 310 and includes information indicating whether the small base station gateway 340 can be a handover termination. The list of accessible CSGs of the UE 310 may be obtained from the HSS 370. The MME 350 may transmit information indicating that the small base station gateway 340 may be a handover end to the small base station gateway 340 in the following manner. For example, according to an embodiment of the present invention, the MME 350 sets the special indicative bit of the initial context setup request message to 1 or 0 so that the small base station gateway 340 is handed over. It can indicate that it can be a termination. According to another embodiment of the present invention, regardless of the value of the specific indication bit, the presence of the indication bit indicates that the small base station gateway 340 may be a handover termination, the indication bit does not exist If so, the small base station gateway 340 may be defined as indicating that the handover termination cannot be performed. According to another embodiment of the present invention, regardless of the value of the specific indication bit, if the indication bit is not present indicates that the small base station gateway 340 may be a handover termination, and the indication bit If present, the small base station gateway 340 may be defined as indicating that it cannot be a handover termination.

In step 319, the small base station gateway 340 stores a list of accessible CSGs of the UE 310 and information indicating whether the small base station gateway 340 may be a handover termination.

In step 321, the small base station gateway 340 transmits an initial context setup request message to the small base station 320. In this case, the initial context setup request message may include information indicating whether the small base station gateway 340 may be a handover termination. The small base station 320 may perform different operations depending on whether the small base station gateway 340 may be a handover termination. However, an operation of transmitting information indicating whether the small base station gateway 340 may be a handover termination to the small base station 320 may be omitted.

Additionally, upon receiving the initial context setup request message from the MME 350, the small base station gateway 340 may determine whether the transmission of the user plan is performed through one or two tunnels. have. One tunnel means that transmission of the user plan is made directly from the small base station 320 to the S-GW / PDN_GW 360 or from the S-GW / PDN_GW 360 to the small base station 320. do. Two tunnels allow the transmission of the user plan from the small base station 320 to the S-GW / PDN_GW 360 via the small base station gateway 340, or from the S-GW / PDN_GW 360. It means that the small base station 320 is made through the small base station gateway 340. For example, if the small base station gateway 340 can be a handover termination, the two tunnels are used. Alternatively, whether to use one or two tunnels may depend on the configuration of the system, the intention of the operator, and the like.

When two tunnels are used, in order to set a user plan between the small base station 320 and the small base station gateway 340, the small base station gateway 340 is an uplink tunnel identifier for each enhanced access bearer (EAB). And transmit the uplink tunnel identifier and the transport layer address of the small base station gateway 340 through the initial context setup request message transmitted to the small base station 320. When one tunnel is used, the small base station gateway 340 receives the uplink tunnel identifier and the transport layer address received from the MME 350 through the initial context setup request message sent to the small base station 320. (transport layer address) can be passed.

In step 323, the small base station 320 establishes a radio bearer with the UE 310. In step 325, the small base station 320 transmits an initial context setting response message to the small base station gateway 340, and the small base station gateway 340 transmits an initial context setting response message to the MME 350. .

When two tunnels are used, the small base station gateway 340 allocates a downlink tunnel identifier for each EAB, and the downlink tunnel identifier and the small base station gateway 340 through the initial context setup response message. A transport layer address may be transmitted. When one tunnel is used, the small base station gateway 340 may transmit the uplink tunnel identifier and a transport layer address received from the small base station 320 through the initial context setup response message. have.

4 is a flowchart illustrating a procedure for providing indication information of handover termination determination to a gateway in a mobile communication system according to a second embodiment of the present invention.

Referring to FIG. 4, in step 401, the UE 410 transmits a non-access stratum (NAS) message such as a service request message to the small base station 420. In step 403, the small base station 420 transmits an S1AP (S1 Access Protocol) message, such as an initial UE message, to the small base station gateway 440, and the small base station gateway 440 sends an MME 450 to the small base station gateway 440. Send the initial UE message.

In step 405, the MME 450 determines that the downlink node is the small base station gateway 440. Here, the MME 450 may determine that the downlink node is the small base station gateway 440 through the following process. According to an embodiment of the present invention, before exchanging information, the MME 450 and the small base station gateway 440 first perform an S1 setup procedure. At this time, the small base station gateway 440 transmits its identification information (for example, small base station gateway ID) to the MME 450, the MME 450 is a downlink node through the identification information to the small base station It may be determined as the gateway 440. If the downlink node is a base station or a small base station, the downlink node may also be determined through corresponding identification information. According to another embodiment of the present invention, during the S1 setting process, the small base station gateway 440 sets the S1 including a tracking area (TA) list supported by the small base station gateway 440 to the MME 450. Send the request message. The TA list supported by the small base station gateway 440 is a special one, and therefore, the MME 450 may determine that the downlink node is the small base station gateway 440 through the TA list. According to another embodiment of the present invention, during the S1 setup process, the small base station gateway 440 indicates a base station type indicator indicating that the downlink node is the small base station gateway 440 to the MME 450. S1 configuration request message including a type indication) can be transmitted.

In step 407, the MME 450 determines whether the small base station gateway 440 may be a handover termination. At this time, the MME 450 based on whether at least one of the UE location change report activity information and the CSG information report activity information is received, and at least one of the UE location change report activity information and the CSG information report activity information. It may be determined whether the small base station gateway 440 may be a handover termination. For example, if at least one of the UE location change report activity information and the CSG information report activity information is not received, it may be determined that the small base station gateway 440 may be a handover end. In addition, the UE location change report activity information is received and the content of the UE location change report activity information includes the stop reporting, the CSG information report activity information is received and the content of the CSG information report activity information is the UE CSG type When not entering / deleting / connecting to a cell, when not entering / deleting / connecting to a combined cell to which a UE is subscribed, and when the UE includes not entering / deleting / connecting to a non-subscribed hybrid cell, the small It may be determined that the base station gateway 440 may be a handover termination. In addition, the UE location change report activity information is received and the content of the UE location change report activity information includes a report non-stop such as ECGI report initiation, the CSG information report activity information is received and of the CSG information report activity information If the content includes reporting when the UE enters / leaves / connects to the CSG-type cell, reports when the UE enters / leaves / connects to the combined cell to which the UE is subscribed, and reports the UE enters / leaves / connects to the unsubscribed hybrid cell, It may be determined that the small base station gateway 440 cannot be a handover termination.

In step 409, the MME 450 transmits an initial context setup request message to the small base station gateway 440. The initial context establishment request message includes a list of accessible CSGs of the UE 410 and includes information indicating whether the small base station gateway 440 can be a handover termination. The list of accessible CSGs of the UE 410 may be obtained from an HSS (not shown). The MME 450 may transmit information indicating that the small base station gateway 440 may be a handover end to the small base station gateway 440 through the following scheme. For example, according to an embodiment of the present invention, the MME 450 sets the special indicative bit of the initial context setup request message to 1 or 0 so that the small base station gateway 440 is handed over. It can indicate that it can be a termination. According to another embodiment of the present invention, regardless of the value of the specific indication bit, the presence of the indication bit indicates that the small base station gateway 440 may be a handover termination, the indication bit does not exist If so, the small base station gateway 440 may be defined as indicating that the handover termination cannot be performed. According to another embodiment of the present invention, regardless of the value of the specific indication bit, if the indication bit does not exist indicates that the small base station gateway 440 may be a handover termination, and the indication bit If present, the small base station gateway 440 may be defined as indicating that the handover termination cannot be a handover termination.

In step 411, the small base station gateway 440 stores a list of accessible CSGs of the UE 410 and information indicating whether the small base station gateway 440 can be a handover termination. In step 413, the small base station gateway 440 transmits an initial context setup request message to the small base station 420. In this case, the initial context setup request message may include information indicating whether the small base station gateway 440 may be a handover termination. The small base station 420 may perform different operations depending on whether the small base station gateway 440 may be a handover termination. However, an operation of transmitting the information indicating whether the small base station gateway 440 may be a handover termination to the small base station 420 may be omitted.

Additionally, upon receiving the initial context setup request message from the MME 450, the small base station gateway 440 may determine whether the transmission of the user plan is performed through one or two tunnels. have. One tunnel means that transmission of the user plan is made directly from the small base station 420 to the S-GW / PDN_GW 460 or from the S-GW / PDN_GW 460 to the small base station 420. do. The two tunnels allow the transmission of the user plan from the small base station 420 to the S-GW / PDN_GW 460 via the small base station gateway 440, or from the S-GW / PDN_GW 460. It means that the small base station 420 through the small base station gateway 440. For example, if the small base station gateway 440 can be a handover termination, the two tunnels are used. Alternatively, whether to use one or two tunnels may depend on the configuration of the system, the intention of the operator, and the like.

When two tunnels are used, in order to set a user plan between the small base station 420 and the small base station gateway 440, the small base station gateway 440 is an uplink tunnel identifier for each enhanced access bearer (EAB). In this case, the uplink tunnel identifier and the transport layer address of the small base station gateway 440 may be transmitted through the initial context setup request message transmitted to the small base station 420. When one tunnel is used, the small base station gateway 440 receives the uplink tunnel identifier and the transport layer address received from the MME 450 through the initial context setup request message sent to the small base station 420. (transport layer address) can be passed.

In step 415, the small base station 420 establishes a radio bearer with the UE 410. In step 417, the small base station 420 transmits an initial context setting response message to the small base station gateway 440, and the small base station gateway 440 transmits an initial context setting response message to the MME 450. . When two tunnels are used, the small base station gateway 440 allocates a downlink tunnel identifier for each EAB, and the downlink tunnel identifier and the small base station gateway 440 of the small base station gateway 440 through the initial context setup response message. A transport layer address may be transmitted. When one tunnel is used, the small base station gateway 440 may transmit the uplink tunnel identifier and a transport layer address received from the small base station 420 through the initial context setup response message. have.

In step 419, the MME 450 transmits a bearer modification request message to the S-GW / PDN_GW 460. When the MME 450 stores at least one of UE location change report activity information and CSG information report activity information, the current state satisfies a reporting condition, and accordingly, information to be reported is transmitted through the bearer modification request message. Delivered. For example, when storing at least one of the UE location change report activity information and the CSG information report activity information, the MME (SME) by transmitting a service request message indicating that the attachment (attach) is completed; 450 may be the time when at least one of the UE location change report activity information and the CSG information report activity information is received.

In step 421, the S-GW / PDN_GW 460 transmits a bearer modification response message to the MME 450. The S-GW / PDN_GW 460 may deliver at least one of UE location change report activity information and CSG information report activity information through the bearer modification response message. If at least one of the UE location change reporting activity information and the CSG information reporting activity information is not received through a previous attach procedure and is received at the present time, or not at both the previous attach procedure and the current time, If it is different from the one received in the previous access procedure at the present time, the MME 450 determines again whether the small base station gateway 440 can be a handover termination. For example, the MME 450 may re-determine the same as in step 407. If the determination result is different from the determination in step 407, the MME 450 updates information indicating whether the small base station gateway 440 stored in the small base station gateway 440 can be a handover termination. do. For example, the information indicating whether the small base station gateway 440 may be a handover termination may be updated as shown in FIG. 5. In addition, when the accessible CSG list of the UE 410 is changed, the CSG list may also be updated.

5 is a flowchart illustrating an update procedure of handover termination related information in a mobile communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 5, in step 501, the MME 550 updates a list of accessible CSGs of a UE and a determination result of whether the small base station gateway 540 can be a handover termination, and the small base station gateway Send a UE context modification request message to 540. When the MME 550 recognizes that the HSS changes the list of accessible CSGs of the UE, the MME 550 determines the small base station gateway according to at least one of the UE location change report activity information and the CSG information report activity information. If at least one condition of the case in which 540 updates the determination of whether a handover termination can be satisfied is satisfied, the MME 550 determines that a list of accessible CSGs of the UE and the small base station gateway 540 are handover terminated. The UE context modification request message including at least one of the indication information indicating whether or not to be transmitted to the small base station gateway 540. For example, a detailed process of delivering the indication information may be the same as step 317.

In step 503, the small base station gateway 540 transmits to the small base station 520 a UE context modification request message including indication information indicating whether the small base station gateway 540 can be a handover termination. do. The UE context modification request message may further include a list of accessible CSGs of the UE. In step 505, the small base station 520 transmits a UE context modification response message to the small base station gateway 540. Steps 503 and 505 may be omitted. In step 507, the small base station gateway 540 transmits a UE context modification response message to the MME 550.

The present invention has described embodiments of providing indication information indicating whether a gateway can be a handover end and updating a UE's accessible CSG list and determination result. Hereinafter, an embodiment of performing handover based on the above-described embodiments will be described.

6 illustrates a handover procedure in a mobile communication system according to a first embodiment of the present invention.

Referring to FIG. 6, in step 601, the source small base station 620 transmits a handover request message to the target small base station 630. According to an embodiment of the present invention, a target cell to be handed over by the UE 610 is CSG type, and the CSG identifier of the target cell is different from the CSG identifier of the source cell serving the UE 610. (Including when the source cell is not the CSG type), an access control for the UE 610, for example, whether the UE 610 is accessible to the target cell should be performed do. If the UE 610 is not accessible to the target cell, the handover fails. Whether the UE 610 is accessible to the target cell may be determined based on whether the CSG identifier of the target cell is included in the accessible CSG list of the UE 610. If the target cell is a hybrid, connection control, for example, a determination process of whether the UE 610 is a CSG member of the target cell should be performed, and different QoS may be determined according to the determination result. Quality of Service may be provided. Whether the UE 610 is a CSG member of the target cell may be determined using a list of accessible CSGs of the UE 610. If the source cell and the target cell belong to the same CSG, access control may not be performed.

The access control may be performed by one of the source small base station 620, the small base station gateway 640, and the target small base station 630. When the access control is performed in the source small base station 620 or the target small base station 630, the CSG identifier of the target cell and the accessible CSG list of the UE 610 may be the source small base station 620 or the target. It should be provided to the small base station 630. The process of obtaining, by the source small base station 620 or the target small base station 630, the CSG identifier of the target cell and the accessible CSG list of the UE 610 is as described above. The source small base station 620 may transmit a list of accessible CSGs of the UE 610 to the target small base station 630 through the handover request message.

In step 603, the target small base station 630 allocates resources for the UE 610 and transmits a handover request ACK to the source small base station 620. In step 605, the source small base station 620 transmits a handover command message to the UE 610. In step 607, the UE 610 transmits a handover confirm message to the target small base station 630. In step 609, the target small base station 630 transmits a path switch request message to the small base station gateway 640.

In step 611, the small base station gateway 640 may be a handover termination based on indication information indicating whether the small base station gateway 640 may be a handover termination. Determine whether there is. If the small base station gateway 640 can be a handover termination, step 613 is performed. The small base station gateway 640 may simply determine whether the small base station gateway 640 may be a handover termination as indicated by the indication information.

Additionally, the small base station gateway 640 may determine whether the small base station gateway 640 may be a handover termination based on other information. For example, the other information may include at least one of operator setting information and whether user plan transmission is performed through one or two tunnels. For example, when the indication information indicates that the small base station gateway 640 cannot be a handover end, it is determined that the small base station gateway 640 cannot be a handover end, and the handover is an MME. 650 is terminated. On the other hand, when the indication information indicates that the small base station gateway 640 may be a handover end, it is determined that the small base station gateway 640 may be a handover end, and step 613 is performed. . Alternatively, when the indication information indicates that the small base station gateway 640 may be a handover termination, but the operator setting, etc. indicates that the small base station gateway 640 may not be a handover termination, the small size It is determined that the base station gateway 640 cannot be a handover end, and the handover is performed to the MME 650 as an end. Alternatively, the indication information indicates that the small base station gateway 640 may be a handover termination, but when the user plan transmission is performed through one tunnel, the small base station gateway 640 may be configured to perform a handover termination. It is determined that it cannot be, and the handover is performed to terminate the MME 650.

In step 613, the small base station gateway 640 transmits a path switch request ACK of the target small base station 630. In step 615, the target small base station 630 transmits a resource release message to the source small base station 620.

7 illustrates a handover procedure in a mobile communication system according to a second embodiment of the present invention.

Referring to FIG. 7, in step 701, the source small base station 720 transmits a handover required message to the small base station gateway 740.

In step 703, the small base station gateway 740 may be a handover termination based on indication information indicating whether the small base station gateway 740 may be a handover termination. Determine whether there is. If the small base station gateway 740 can be a handover termination, step 705 is performed. The small base station gateway 740 may simply determine whether the small base station gateway 740 may be a handover termination as indicated by the indication information. In addition, the small base station gateway 740 may determine whether the small base station gateway 740 may be a handover termination based on other information. For example, the other information may include at least one of operator setting information and whether user plan transmission is performed through one or two tunnels. For example, when the indication information indicates that the small base station gateway 740 cannot be a handover end, it is determined that the small base station gateway 740 cannot be a handover end, and the handover is an MME. 750 is terminated. On the other hand, when the indication information indicates that the small base station gateway 740 may be a handover end, it is determined that the small base station gateway 740 may be a handover end, and step 705 is performed. . Alternatively, when the indication information indicates that the small base station gateway 740 may be a handover termination, but the operator setting, etc. indicates that the small base station gateway 740 may not be a handover termination, the small size It is determined that the base station gateway 740 cannot be a handover end, and the handover is performed to the MME 750 as an end. Alternatively, the indication information indicates that the small base station gateway 740 may be a handover termination, but when the user plan transmission is performed through one tunnel, the small base station gateway 740 may be a handover termination. It is determined that it cannot be, and the handover is performed to terminate the MME 750.

In step 705, the small base station gateway 740 transmits a handover request message to the target small base station 730. In step 707, the target small base station 730 allocates resources to the UE 710 and transmits a handover request ACK to the small base station gateway 740. In step 709, the small base station gateway 740 transmits a handover command message to the source small base station 720. In step 711, the source small base station 720 transmits a handover command message to the UE 710. In step 713, the UE 710 transmits a handover confirm message to the target small base station 730. In step 715, the target small base station 730 transmits a handover notify message to the small base station gateway 740. In step 717, the small base station gateway 740 transmits a UE context release command message to the source small base station 720. In step 719, the source small base station 720 transmits a UE context release complete message to the small base station gateway 740.

8 illustrates a handover procedure in a mobile communication system according to a third embodiment of the present invention.

Referring to FIG. 8, in step 801, the source small base station 820 transmits a handover request message to the small base station gateway 840.

In step 803, the small base station gateway 840 may become the small base station gateway 840 based on the indication information indicating whether the small base station gateway 840 may be a handover termination. Determine whether there is. If the small base station gateway 840 can be a handover termination, step 805 is performed. The small base station gateway 840 may simply determine whether the small base station gateway 840 may be a handover termination as indicated by the indication information. In addition, the small base station gateway 840 may determine whether the small base station gateway 840 may be a handover termination based on other information. For example, the other information may include at least one of operator setting information and whether user plan transmission is performed through one or two tunnels. For example, when the indication information indicates that the small base station gateway 840 cannot be a handover end, it is determined that the small base station gateway 840 cannot be a handover end, and the handover is an MME. 850 is terminated. On the other hand, when the indication information indicates that the small base station gateway 840 may be a handover end, it is determined that the small base station gateway 840 may be a handover end, and step 805 is performed. . Alternatively, when the indication information indicates that the small base station gateway 840 may be a handover end, but the operator setting or the like indicates that the small base station gateway 840 may not be a handover end, It is determined that the base station gateway 840 cannot be a handover end, and the handover is performed to the MME 850 as an end. Alternatively, the indication information indicates that the small base station gateway 840 may be a handover termination. However, when the user plan transmission is performed through one tunnel, the small base station gateway 840 is configured to perform a handover termination. It is determined that it cannot be, and the handover is performed to terminate the MME 850.

In step 805, the small base station gateway 840 transmits a handover request message to the target small base station 830. In the embodiment illustrated in FIG. 7, in steps 701 and 705, the small base stations exchange information with the small base station gateway using an S1 interface. However, in steps 801 and 805, the small base stations 820 and 830 exchange information with the small base station gateway 840 using an X2 interface. That is, in step 801, the source small base station 820 transmits an X2AP protocol, for example, a handover request message, to the small base station gateway 840. In step 805, the small base station gateway 840 transmits an X2AP handover request message to the target small base station 830.

In step 807, the target small base station 830 allocates resources to the UE 810 and transmits a handover request ACK to the small base station gateway 840. In step 809, the small base station gateway 840 transmits a handover command message to the source small base station 820. In the embodiment illustrated in FIG. 7, in steps 707 and 709, the small base stations exchange information with the small base station gateway using an S1 interface. However, in steps 807 and 809, the small base stations 820 and 830 exchange information with the small base station gateway 840 using an X2 interface. That is, in step 807, the target small base station 830 transmits an X2AP handover request ACK to the small base station gateway 840. In step 809, the small base station gateway 840 transmits an X2AP handover request ACK to the source small base station 820.

In step 811, the source small base station 820 transmits a handover command message to the UE 810. In step 813, the UE 810 transmits a handover confirm message to the target small base station 830. In step 815, the target small base station 830 transmits a handover notify message to the small base station gateway 840. At this time, the target small base station 830 transmits the handover notification message to the small base station gateway 840 using the S1 interface. According to another embodiment of the present invention, in step 815, the target small base station 830 transmits a path switch request message to the small base station gateway 840 using an X2 interface, and the small base station The gateway 840 may be replaced by a process of transmitting a path change request ACK to the target small base station 830 using the X2 interface.

In step 817, the small base station gateway 840 transmits a UE context release command message to the source small base station 820. In step 819, the source small base station 820 transmits a UE context release complete message to the small base station gateway 840. In steps 817 and 819, the target small base station 830 and the small base station gateway 840 transmit and receive information using an S1 interface. According to another embodiment of the present disclosure, in step 817 and 819, the target small base station 830 transmits a resource release message to the small base station gateway 840 using an X2 interface, and The small base station gateway 840 may be replaced by a process of transmitting a resource release message to the target small base station 830 using the X2 interface.

In the above-described feature (2), that is, the MME provides at least one of UE location change reporting activity information and CSG information reporting activity information to the gateway, and the gateway directly determines whether the gateway can be a handover end. The handover according to the present invention is as follows.

9 illustrates a procedure of providing at least one of UE location change report activity information and CSG information report activity information to a gateway in a mobile communication system according to the first embodiment of the present invention.

Referring to FIG. 9, in step 901, the UE 910 transmits a Non-Access Stratum (NAS) message, such as an attach message, to the small base station 920. Since the information transmitted by the access message is not related to the present invention, a detailed description thereof will be omitted. In step 903, the small base station 920 transmits an S1AP (S1 Access Protocol) message, such as an initial UE message, to the small base station gateway 940, and the small base station gateway 940 transmits an MME 950. Transmit the initial UE message. When the cell connected by the UE 910 is CSG type or complex type, the initial UE message may include a CSG identifier. Hereinafter, the small base station 920 is a small base station to which the UE 910 connects.

In step 905, the MME 950 transmits a location update request message to a home subscriber server (HSS) 970. If the MME 950 does not have valid information of the UE 910, the MME 950 is not an MME to which the UE 910 has previously connected. For example, when the MME is changed or the situation defined in the standard (eg TS23.401) is satisfied. In this case, the MME 950 transmits a location update request message to the HSS 970. In step 907, the HSS 970 transmits a location update response message including UE subscription information of the UE 910 to the MME 950. The UE subscription information may include CSG subscription data including information such as CSG and validity time that the UE 910 can access. However, steps 905 and 907 are performed when the MME 950 does not have valid information of the UE 910. Accordingly, when the MME 950 already has valid information of the UE 910, steps 905 and 907 may be omitted.

In step 909, the MME 950 transmits a session creation request message to the S-GW / PDN_GW 960. In FIG. 9, signaling between the S-GW and the PDN_GW is omitted. In step 911, the S-GW / PDN_GW 960 transmits a session creation response message to the MME 950. Since the process of the S-GW / PDN_GW 960 establishing a session is not directly related to the present invention, the present invention will not be described. According to an embodiment of the present disclosure, at least one of UE location change report activity information and CSG information report activity information may be included in the session creation response message. The content of the UE location change report activity information may include: stopping reporting, initiating reporting of CGI (Cell Global Identifier) / SAI (Service Area Identifier), initiating reporting of Evolved Cell Global Identifier (ECGI), and TAI ( It may include at least one of reporting start of Tracking Area Identifier (RAI), reporting start of Routing Area Identifier (RAI), reporting start of ECGI and TAI, and reporting start of CGAI / SAI and RAI. The contents of the CSG information reporting activity information may be reported or non-reported when the UE enters / leaves / accesses the CSG cell, and enters / leaves / accesses the composite cell to which the UE is subscribed. Time reporting or non-reporting, the UE may include at least one of reporting or non-reporting when entering / leaving / accessing the composite cell is not subscribed. Detailed description of the UE location change reporting activity and the CSG information reporting activity is omitted. The MME 950 stores at least one of the UE location change report activity information and the CSG information report activity information and performs a corresponding operation.

In step 913, the MME 950 determines that the downlink node is the small base station gateway 940. Here, the MME 950 may determine that the downlink node is the small base station gateway 940 through the following process. According to an embodiment of the present invention, before the information exchange, the MME 950 and the small base station gateway 940 first perform an S1 setup procedure. In this case, the small base station gateway 940 transmits its own identification information (for example, small base station gateway ID) to the MME 950, and the MME 950 transmits the downlink node to the small base station through the identification information. It may be determined that the gateway 940. If the downlink node is a base station or a small base station, the downlink node may also be determined through corresponding identification information. According to another embodiment of the present invention, during the S1 setup process, the small base station gateway 940 configures S1 including a tracking area (TA) list supported by the small base station gateway 940 to the MME 950. Send the request message. The TA list supported by the small base station gateway 940 is a special one, and therefore, the MME 950 may determine that the downlink node is the small base station gateway 940 through the TA list. According to another embodiment of the present invention, during the S1 setup process, the small base station gateway 940 indicates to the MME 950 a base station type indicator (base station) indicating that the downlink node is the small base station gateway 940. S1 configuration request message including a type indication) can be transmitted.

In step 915, the MME 950 transmits an initial context setup request message to the small base station gateway 940. The initial context setup request message includes at least one of a list of accessible CSGs, UE location change report activity information, and CSG information report activity information of the UE 910. The UE location change report activity information and the CSG information report activity information may be the same as those received from the S-GW / PDN_GW 960 in step 909 or may be generated by the MME 950. For example, the content of the UE location change report activity information may include stopping reporting, initiating reporting of ECGI, initiating reporting of TAI, initiating reporting of ECGI and TAI, and the like.

In step 917, the small base station gateway 940 stores at least one of a list of accessible CSGs, UE location change report activity information, and CSG information report activity information of the UE 910 that have been received. In step 919, the small base station gateway 940 transmits an initial context setup request message to the small base station 920. In this case, the initial context setup request message may include at least one of a list of accessible CSGs of the UE 910, UE location change report activity information, and CSG information report activity information.

In addition, the small base station gateway 940 may determine whether transmission of the user plan is performed through one or two tunnels. One tunnel means that transmission of the user plan is made directly from the small base station 920 to the S-GW / PDN_GW 960 or from the S-GW / PDN_GW 960 to the small base station 920. do. Two tunnels allow the transmission of the user plan from the small base station 920 through the small base station gateway 930 to the S-GW / PDN_GW 960, or from the S-GW / PDN_GW 960. The small base station 920 is passed through the small base station gateway 930. For example, if the small base station gateway 940 can be a handover termination, the two tunnels are used. Alternatively, whether to use one or two tunnels may depend on the configuration of the system, the intention of the operator, and the like.

When two tunnels are used, in order to set up a user plan between the small base station 920 and the small base station gateway 940, the small base station gateway 940 assigns an uplink tunnel identifier for each enhanced access bearer (EAB). And transmit the uplink tunnel identifier and the transport layer address of the small base station gateway 940 through the initial context setup request message transmitted to the small base station 920. When one tunnel is used, the small base station gateway 940 receives the uplink tunnel identifier and the transport layer address received from the MME 950 through the initial context setup request message sent to the small base station 920. (transport layer address) can be passed.

In step 921, the small base station 920 establishes a radio bearer with the UE 910. In step 923, the small base station 920 transmits an initial context setting response message to the small base station gateway 940, and the small base station gateway 940 transmits an initial context setting response message to the MME 950. . When two tunnels are used, the small base station gateway 940 allocates a downlink tunnel identifier for each EAB, and the downlink tunnel identifier and the small base station gateway 940 via the initial context setup response message. A transport layer address may be transmitted. When one tunnel is used, the small base station gateway 940 may transmit the uplink tunnel identifier and a transport layer address received from the small base station 920 through the initial context setup response message. have.

FIG. 10 illustrates a procedure for providing at least one of UE location change report activity information and CSG information report activity information to a gateway in a mobile communication system according to the second embodiment of the present invention.

Referring to FIG. 10, in step 1001, the UE 1010 transmits a Non-Access Stratum (NAS) message such as a service request message to the small base station 1020. In step 1003, the small base station 1020 transmits an S1AP (S1 Access Protocol) message, such as an initial UE message, to the small base station gateway 1040, and the small base station gateway 1040 sends an MME 1050. Send the initial UE message.

In step 1005, the MME 1050 determines that the downlink node is the small base station gateway 1040. Here, the MME 1050 may determine that the downlink node is the small base station gateway 1040 through the following process. According to an embodiment of the present invention, before exchanging information, the MME 1050 and the small base station gateway 1040 first perform an S1 setup procedure. At this time, the small base station gateway 1040 transmits its identification information (for example, small base station gateway ID) to the MME 1050, the MME 1050 is a downlink node through the identification information to the small base station It may be determined that the gateway 1040. If the downlink node is a base station or a small base station, the downlink node may also be determined through corresponding identification information. According to another embodiment of the present invention, during the S1 setting process, the small base station gateway 1040 sets the S1 including a tracking area (TA) list supported by the small base station gateway 1040 to the MME 1050. Send the request message. The TA list supported by the small base station gateway 1040 is a special one, and therefore, the MME 1050 may determine that the downlink node is the small base station gateway 1040 through the TA list. According to another embodiment of the present invention, during the S1 setup process, the small base station gateway 1040 indicates to the MME 1050 a base station type indicator (base station) indicating that the downlink node is the small base station gateway 1040. S1 configuration request message including a type indication) can be transmitted.

In step 1007, the MME 1050 transmits an initial context setup request message to the small base station gateway 1040. The initial context setup request message includes at least one of a list of accessible CSGs, UE location change report activity information, and CSG information report activity information of the UE 1010. The UE location change report activity information and the CSG information report activity information may be the same as those received from the S-GW / PDN_GW 1060 in step 909 or may be generated by the MME 1050. For example, the content of the UE location change report activity information may include stopping reporting, initiating reporting of ECGI, initiating reporting of TAI, initiating reporting of ECGI and TAI, and the like.

In step 1009, the small base station gateway 1040 stores at least one of the list of accessible CSGs, UE location change report activity information, and CSG information report activity information of the UE 1010 received. In step 1011, the small base station gateway 1040 transmits an initial context setup request message to the small base station 1020. In this case, the initial context setup request message may include at least one of a list of accessible CSGs of the UE 1010, UE location change report activity information, and CSG information report activity information.

In addition, the small base station gateway 1040 may determine whether the transmission of the user plan is performed through one or two tunnels. One tunnel means that transmission of the user plan is directly made from the small base station 1020 to the S-GW / PDN_GW 1060 or from the S-GW / PDN_GW 1060 to the small base station 1020. do. The two tunnels allow the transmission of the user plan from the small base station 1020 to the S-GW / PDN_GW 1060 or from the S-GW / PDN_GW 1060 to the small base station gateway 1040. It means that the small base station 1020 through the small base station gateway 1040. For example, if the small base station gateway 1040 can be a handover termination, the two tunnels are used. Alternatively, whether to use one or two tunnels may depend on the configuration of the system, the intention of the operator, and the like.

When two tunnels are used, in order to set a user plan between the small base station 1020 and the small base station gateway 1040, the small base station gateway 1040 is an uplink tunnel identifier for each enhanced access bearer (EAB). In this case, the uplink tunnel identifier and the transport layer address of the small base station gateway 1040 may be transmitted through the initial context setup request message transmitted to the small base station 1020. When one tunnel is used, the small base station gateway 1040 receives the uplink tunnel identifier and the transport layer address received from the MME 1050 through the initial context setup request message sent to the small base station 1020. (transport layer address) can be passed.

In step 1013, the small base station 1020 sets up a radio bearer with the UE 1010. In step 1015, the small base station 1020 transmits an initial context setting response message to the small base station gateway 1040, and the small base station gateway 1040 transmits an initial context setting response message to the MME 1050. . When two tunnels are used, the small base station gateway 1040 allocates a downlink tunnel identifier for each EAB, and the downlink tunnel identifier and the small base station gateway 1040 of the small base station through the initial context setup response message. A transport layer address may be transmitted. When one tunnel is used, the small base station gateway 1040 may transmit the uplink tunnel identifier and a transport layer address received from the small base station 1020 through the initial context setup response message. have.

In step 1017, the MME 1050 transmits a bearer modification request message to the S-GW / PDN_GW 1060. When the MME 1050 stores at least one of UE location change report activity information and CSG information report activity information, the current state satisfies a reporting condition, and thus the information to be reported is transmitted through the bearer modification request message. Delivered. For example, when at least one of UE location change report activity information and CSG information report activity information is stored, the MME (SME 1010) transmits a service request message indicating that attachment is completed. It may be when 1050 receives at least one of UE location change report activity information and CSG information report activity information.

In step 1019, the S-GW / PDN_GW 1060 transmits a bearer modification response message to the MME 1050. The S-GW / PDN_GW 1060 may deliver at least one of UE location change report activity information and CSG information report activity information through the bearer modification response message. If at least one of the UE location change reporting activity information and the CSG information reporting activity information is not received through a previous attach procedure and is received at the present time, or not at both the previous attach procedure and the current time, If it is different from what was received in the previous access procedure, the MME 1050 again provides at least one of the UE location change report activity information and CSG information report activity information. In addition, when the accessible CSG list of the UE 1010 is changed, the CSG list may also be provided again.

9 and 10 illustrate embodiments of a process in which an MME provides at least one of UE location change report activity information and CSG information report activity information. Then, when at least one of the UE location change report activity information and the CSG information report activity information is changed, the MME at least one of the UE location change report activity information and the CSG information report activity information stored in the small base station gateway. Should be updated. In addition, when the accessible CSG list of the UE is changed, the CSG list should also be updated.

11 illustrates a procedure of updating at least one of UE location change report activity information and CSG information report activity information in a mobile communication system according to an embodiment of the present invention.

Referring to FIG. 11, in step 1101, the MME 1150 updates at least one of a list of accessible CSGs, UE location change report activity information, and CSG information report activity information of the UE, and transmits to the small base station gateway 1140. Send a UE context modification request message. The UE context modification request message includes at least one of an updated accessible CSG list of the UE, the UE location change report activity information, and the CSG information report activity information.

In operation 1103, the small base station gateway 1140 may include at least one of an accessible CSG list of the UE updated to the small base station 1120, the UE location change reporting activity information, and the CSG information reporting activity information. Send a context modification request message. In step 1105, the small base station 1120 transmits a UE context modification response message to the small base station gateway 1140. Steps 1103 and 1105 may be omitted. In step 1107, the small base station gateway 1140 transmits a UE context modification response message to the MME 1150.

The present invention provides a process for providing at least one of UE location change reporting activity information and CSG information reporting activity information, and updating at least one of a list of accessible CSGs of the UE, UE location change reporting activity information, and CSG information reporting activity information. Embodiments of the process were described. Hereinafter, an embodiment of performing handover based on the above-described embodiments will be described.

12 illustrates a handover procedure in a mobile communication system according to a fourth embodiment of the present invention.

Referring to FIG. 12, in step 1201, the source small base station 1220 transmits a handover request message to the target small base station 1230. According to an embodiment of the present disclosure, when a target cell to be handed over by the UE 1210 is CSG type, and the CSG identifier of the target cell is different from the CSG identifier of the source cell serving the UE 1210 (Including when the source cell is not CSG type), an access control for the UE 1210, for example, whether the UE 1210 is accessible to the target cell should be performed. do. If the UE 1210 is not accessible to the target cell, the handover fails. Whether the UE 1210 is accessible to the target cell may be determined based on whether the CSG identifier of the target cell is included in the accessible CSG list of the UE 1210. If the target cell is a hybrid, connection control, for example, a determination process of whether the UE 1210 is a CSG member of the target cell should be performed, and different QoS may be determined according to the determination result. Quality of Service may be provided. Whether the UE 1210 is a CSG member of the target cell may be determined using a list of accessible CSGs of the UE 1210. If the source cell and the target cell belong to the same CSG, access control may not be performed.

The access control may be performed by one of the source small base station 1220, the small base station gateway 1240, and the target small base station 1230. When access control is performed at the source small base station 1220 or the target small base station 1230, the CSG identifier of the target cell and the accessible CSG list of the UE 1210 may be selected from the source small base station 1220 or the target. It should be provided to the small base station 1230. The process of obtaining the CSG identifier of the target cell and the accessible CSG list of the UE 1210 by the source small base station 1220 or the target small base station 1230 is as described above. The source small base station 1220 may transmit a list of accessible CSGs of the UE 1210 to the target small base station 1230 through the handover request message.

In step 1203, the target small base station 1230 allocates resources for the UE 1210 and transmits a handover request ACK to the source small base station 1220. In step 1205, the source small base station 1220 transmits a handover command message to the UE 1210. In step 1207, the UE 1210 transmits a handover confirm message to the target small base station 1230. In step 1209, the target small base station 1230 transmits a path switch request message to the small base station gateway 1240.

In step 1211, the small base station gateway 1240 determines whether the small base station gateway 1240 may be a handover end based on at least one of the received UE location change reporting activity information and the CSG information reporting activity information. do. For example, when the UE location change report activity information is received and the content of the UE location change report activity information includes stopping reporting, the CSG information report activity information is received and the content of the CSG information report activity information is CSG. If at least one of the following conditions is satisfied: unreported when entering / learning / connecting to a cell, unreporting when entering / leave / connecting to a combined hybrid cell, and not reporting when entering / leave / connecting to a non-subscribed hybrid cell It may be determined that the small base station gateway 1240 may be a handover termination. In this case, steps 1213 and 1215 are performed below. On the other hand, when the UE location change report activity information is received and the content of the UE location change report activity information includes a report non-stop such as starting ECGI report, the CSG information report activity information is received and the CSG information report activity information At least one of the cases in which the contents of the report includes a report on entry / exit / access to a CSG cell, a report on entry / exit / access to a subscribed hybrid cell, and a report on entry / exit / access to a non-subscribed hybrid cell are satisfied. In this case, it is determined that the small base station gateway 1240 cannot be a handover end, and a handover that terminates the MME 1250 may be performed. Alternatively, it may be determined to perform a handover terminated with the small base station gateway 1240. In this case, steps 1213 and 1221 are performed below. Additionally, the small base station gateway 1240 may determine whether the small base station gateway 1240 may be a handover termination based on other information. For example, the other information may include at least one of operator setting information and whether user plan transmission is performed through one or two tunnels.

In step 1213, the small base station gateway 1240 transmits a path switch request ACK to the target small base station 1230. In step 1215, the target small base station 1230 transmits a resource release message to the source small base station 1220.

In step 1217, when the reporting condition is satisfied, the small base station gateway 1240 transmits an S1AP message such as a location reporting message to the MME 1250. Here, the location report message includes information to be reported and may include, for example, UE location information such as ECGI and TAI. In addition, the S1AP message may further include CSG information. The CSG information may include a CSG identifier of a cell, a connection mode of a cell, and subscription state information (eg, whether a CSG member) of a UE. According to an embodiment of the present disclosure, the UE location information and the CSG information may be delivered separately through two messages or simultaneously delivered through one message.

In step 1219, the MME 1250 transmits a bearer modify request message to the S-GW / PDN_GW 1260. The bearer modification request message may include at least one of UE location information, such as ECGI and TAI, received from the small base station gateway 1240, and the CSG information so that the S-GW / PDN_GW 1260 may perform a charging function. It may include. The CSG information may include a CSG identifier of a cell, a connection mode of a cell, and subscription state information (eg, whether a CSG member) of a UE. According to an embodiment of the present disclosure, the UE location information and the CSG information may be delivered separately through two messages or simultaneously delivered through one message.

In step 1221, the S-GW / PDN_GW 1260 transmits a bearer modify response message to the MME 1250.

13 illustrates a handover procedure in a mobile communication system according to a fifth embodiment of the present invention.

Referring to FIG. 13, in step 1301, the source small base station 1320 transmits a handover required message to the small base station gateway 1340.

In step 1303, the small base station gateway 1340 determines whether the small base station gateway 1340 may be a handover end based on at least one of the received UE location change reporting activity information and the CSG information reporting activity information. do. For example, when the UE location change report activity information is received and the content of the UE location change report activity information includes stopping reporting, the CSG information report activity information is received and the content of the CSG information report activity information is CSG. If at least one of the following conditions is satisfied: unreported when entering / learning / connecting to a cell, unreporting when entering / leave / connecting to a combined hybrid cell, and not reporting when entering / leave / connecting to a non-subscribed hybrid cell It may be determined that the small base station gateway 1340 may be a handover termination. In this case, steps 1305 to 1319 are performed. On the other hand, when the UE location change report activity information is received and the content of the UE location change report activity information includes a report non-stop such as starting ECGI report, the CSG information report activity information is received and the CSG information report activity information At least one of the cases in which the contents of the report includes a report on entry / exit / access to a CSG cell, a report on entry / exit / access to a subscribed hybrid cell, and a report on entry / exit / access to a non-subscribed hybrid cell are satisfied. In this case, it is determined that the small base station gateway 340 cannot be a handover termination, and a handover that terminates the MME 1350 may be performed. Alternatively, it may be determined to perform a handover terminated with the small base station gateway 1340. In this case, steps 1305 to 1319 are performed. In addition, the small base station gateway 1340 may determine whether the small base station gateway 1340 may be a handover termination based on other information. For example, the other information may include at least one of operator setting information and whether user plan transmission is performed through one or two tunnels.

In step 1305, the small base station gateway 1340 transmits a handover request message to the target small base station 1330. In step 1307, the target small base station 1330 allocates resources to the UE 1310 and transmits a handover request ACK to the small base station gateway 1340. In step 1309, the small base station gateway 1340 transmits a handover command message to the source small base station 1320. In step 1311, the source small base station 1320 transmits a handover command message to the UE 1310. In step 1313, the UE 1310 transmits a handover confirm message to the target small base station 1330. In step 1315, the target small base station 1330 transmits a handover notify message to the small base station gateway 1340. In step 1317, the small base station gateway 1340 transmits a UE context release command message to the source small base station 1320. In step 1319, the source small base station 1320 transmits a UE context release complete message to the small base station gateway 1340.

In step 1321, when the reporting condition is satisfied, the small base station gateway 1340 transmits an S1AP message such as a location reporting message to the MME 1350. Here, the location report message includes information to be reported and may include, for example, UE location information such as ECGI and TAI. In addition, the S1AP message may further include CSG information. The CSG information may include a CSG identifier of a cell, a connection mode of a cell, and subscription state information (eg, whether a CSG member) of a UE. According to an embodiment of the present disclosure, the UE location information and the CSG information may be delivered separately through two messages or simultaneously delivered through one message.

In step 1323, the MME 1350 transmits a bearer modify request message to the S-GW / PDN_GW 1360. The bearer modification request message may include at least one of UE location information, such as ECGI and TAI, received from the small base station gateway 1340 and the CSG information so that the S-GW / PDN_GW 1360 may perform a charging function. It may include. The CSG information may include a CSG identifier of a cell, a connection mode of a cell, and subscription state information (eg, whether a CSG member) of a UE. According to an embodiment of the present disclosure, the UE location information and the CSG information may be delivered separately through two messages or simultaneously delivered through one message.

In step 1325, the S-GW / PDN_GW 1360 transmits a bearer modify response message to the MME 1350.

14 illustrates a handover procedure in a mobile communication system according to a sixth embodiment of the present invention.

Referring to FIG. 14, in step 1401, the source small base station 1420 transmits a handover request message to the small base station gateway 1440.

In step 1403, the small base station gateway 1440 determines whether the small base station gateway 1440 can be a handover termination based on at least one of the received UE location change report activity information and the CSG information report activity information. do. For example, when the UE location change report activity information is received and the content of the UE location change report activity information includes stopping reporting, the CSG information report activity information is received and the content of the CSG information report activity information is CSG. If at least one of the following conditions is satisfied: unreported when entering / learning / connecting to a cell, unreporting when entering / leave / connecting to a combined hybrid cell, and not reporting when entering / leave / connecting to a non-subscribed hybrid cell It may be determined that the small base station gateway 1440 may be a handover termination. In this case, steps 1405 to 1419 are performed below. On the other hand, when the UE location change report activity information is received and the content of the UE location change report activity information includes a report non-stop such as starting ECGI report, the CSG information report activity information is received and the CSG information report activity information At least one of the cases in which the contents of the report includes a report on entry / exit / access to a CSG cell, a report on entry / exit / access to a subscribed hybrid cell, and a report on entry / exit / access to a non-subscribed hybrid cell are satisfied. In this case, it is determined that the small base station gateway 1440 cannot be a handover end, and a handover of the MME 1450 as an end may be performed. Alternatively, it may be determined to perform a handover terminated with the small base station gateway 1440. In this case, steps 1405 to 1419 are performed below. In addition, the small base station gateway 1440 may determine whether the small base station gateway 1440 may be a handover termination based on other information. For example, the other information may include at least one of operator setting information and whether user plan transmission is performed through one or two tunnels.

In step 1405, the small base station gateway 1440 transmits a handover request message to the target small base station 1430. In the embodiment shown in FIG. 13, in steps 1301 and 1305, the small base stations exchange information with the small base station gateway using the S1 interface. However, in steps 1401 and 1405, the small base stations 1420 and 1430 exchange information with the small base station gateway 1440 using an X2 interface. That is, in step 1401, the source small base station 1420 transmits an X2AP (X2 Access Protocol) handover request message to the small base station gateway 1440. In step 1405, the small base station gateway 1440 transmits an X2AP handover request message to the target small base station 1430.

In step 1407, the target small base station 1430 allocates resources to the UE 1410 and transmits a handover request ACK to the small base station gateway 1440. In step 1409, the small base station gateway 1440 transmits a handover command message to the source small base station 1420. In the embodiment shown in FIG. 13, in steps 1307 and 1309, the small base stations exchange information using the small base station gateway and the S1 interface. However, in steps 1407 and 1409, the small base stations 1420 and 1430 exchange information with the small base station gateway 1440 using an X2 interface. That is, in step 1307, the target small base station 1430 transmits an X2AP handover request ACK to the small base station gateway 1440. In step 1309, the small base station gateway 1440 transmits an X2AP handover request ACK to the source small base station 1420.

In step 1411, the source small base station 1420 transmits a handover command message to the UE 1410. In step 1413, the UE 1410 transmits a handover confirm message to the target small base station 1430. In step 1415, the target small base station 1430 transmits a handover notify message to the small base station gateway 1440. At this time, the target small base station 1430 transmits the handover notification message to the small base station gateway 1440 using the S1 interface. According to another embodiment of the present invention, in step 1415, the target small base station 1430 transmits a path switch request message to the small base station gateway 1440 using the X2 interface, and the small base station The gateway 1440 may be replaced by a process of transmitting a path change request ACK to the target small base station 1430 by using the X2 interface.

In step 1417, the small base station gateway 1440 transmits a UE context release command message to the source small base station 1420. In step 1419, the source small base station 1420 transmits a UE context release complete message to the small base station gateway 1440. In steps 1417 and 1419, the target small base station 1430 and the small base station gateway 1440 transmit and receive information using an S1 interface. According to another embodiment of the present invention, in steps 1417 and 1419, the target small base station 1430 transmits a resource release message to the small base station gateway 1440 using the X2 interface, The small base station gateway 1440 may be replaced with a process of transmitting a resource release message to the target small base station 1430 by using the X2 interface.

In step 1421, when the reporting condition is satisfied, the small base station gateway 1440 transmits an S1AP message such as a location reporting message to the MME 1450. Here, the location report message includes information to be reported and may include, for example, UE location information such as ECGI and TAI. In addition, the S1AP message may further include CSG information. The CSG information may include a CSG identifier of a cell, a connection mode of a cell, and subscription state information (eg, whether a CSG member) of a UE. According to an embodiment of the present disclosure, the UE location information and the CSG information may be delivered separately through two messages or simultaneously delivered through one message.

In step 1423, the MME 1450 transmits a bearer modify request message to the S-GW / PDN_GW 1460. The bearer modification request message may include at least one of UE location information, such as ECGI and TAI, received from the small base station gateway 1440 and the CSG information so that the S-GW / PDN_GW 1460 may perform the charging function. It may include. The CSG information may include a CSG identifier of a cell, a connection mode of a cell, and subscription state information (eg, whether a CSG member) of a UE. According to an embodiment of the present disclosure, the UE location information and the CSG information may be delivered separately through two messages or simultaneously delivered through one message. In step 1425, the S-GW / PDN_GW 1460 transmits a bearer modify response message to the MME 1450.

In addition, the present invention proposes a handover procedure according to the following feature (3).

(3) Assume that the transmission of user plan data is always performed through two tunnels. In this case, the gateway receiving the message indicating the handover of the UE always performs the handover in a manner terminated at the gateway. In contrast, the gateway receiving the message indicating the handover of the UE may determine whether the gateway may be a handover termination based on whether transmission of user plan data is performed through one tunnel or two tunnels. have. If it is determined that the gateway can be a handover termination, the gateway performs handover in a manner terminated at the gateway. If it is determined that the gateway cannot be a handover end, the gateway performs handover in a manner not terminated at the gateway. After performing the handover in a manner of terminating at the gateway, the gateway provides at least one of UE location information and CSG information to the MME.

15 illustrates a handover procedure in a mobile communication system according to a seventh embodiment of the present invention.

Referring to FIG. 15, in step 1501, the source small base station 1520 transmits a handover request message to the target small base station 1530. According to an embodiment of the present disclosure, when a target cell to be handed over by the UE 1510 is CSG type, and the CSG identifier of the target cell is different from the CSG identifier of the source cell serving the UE 1510 (Including when the source cell is not the CSG type), an access control for the UE 1510, for example, a determination process of whether the UE 1510 is accessible to the target cell should be performed. do. If the UE 1510 is not accessible to the target cell, the handover fails. Whether the UE 1510 is accessible to the target cell may be determined based on whether the CSG identifier of the target cell is included in the accessible CSG list of the UE 1510. If the target cell is a hybrid, access control, for example, a determination process of whether the UE 1510 is a CSG member of the target cell should be performed, and different QoS may be determined according to the determination result. Quality of Service may be provided. Whether the UE 1510 is a CSG member of the target cell may be determined using the list of accessible CSGs of the UE 1510. If the source cell and the target cell belong to the same CSG, access control may not be performed.

The access control may be performed by one of the source small base station 1520, the small base station gateway 1540, and the target small base station 1530. When access control is performed in the source small base station 1520 or the target small base station 1530, the CSG identifier of the target cell and the list of accessible CSGs of the UE 1510 may be included in the source small base station 1520 or the target. It should be provided to the small base station 1530. The process of the source small base station 1520 or the target small base station 1530 obtaining the CSG identifier of the target cell and the accessible CSG list of the UE 1510 is as described above. The source small base station 1520 may transmit a list of accessible CSGs of the UE 1510 to the target small base station 1530 through the handover request message.

In step 1503, the target small base station 1530 allocates resources for the UE 1510 and transmits a handover request ACK to the source small base station 1520. In step 1505, the source small base station 1520 transmits a handover command message to the UE 1510. In step 1507, the UE 1510 transmits a handover confirm message to the target small base station 1530. In step 1509, the target small base station 1530 transmits a path switch request message to the small base station gateway 1540.

In operation 1511, the small base station gateway 1540 determines whether the small base station gateway 1540 may be a handover termination based on whether transmission of user plan data is transmitted through one tunnel or two tunnels. . When two tunnels are used, the small base station gateway 1540 determines that the small base station gateway 1540 may be a handover termination, and step 1507 is performed. When one tunnel is used, the small base station gateway 1540 determines that the small base station gateway 1540 cannot be a handover termination, and the handover is performed by terminating the MME 1550. According to another embodiment of the present invention, when the small base station gateway 1540 always sets up a user plan for the UE 1510 through two tunnels, in other words, the user plan data always uses two tunnels. In case of transmission through the path change request message, the small base station gateway 1540 may skip step 1511 and proceed directly to step 1513.

In step 1513, the small base station gateway 1540 transmits a path switch request ACK to the target small base station 1530. In step 1515, the target small base station 1530 transmits a resource release message to the source small base station 1520.

In step 1517, the small base station gateway 1540 transmits an S1AP message, such as a location reporting message, to the MME 1550. Here, the location report message may include at least one of UE location information and CSG information. The UE location information may include ECGI, TAI, and the like. The CSG information may include a CSG identifier of a cell, a connection mode of a cell, and subscription state information (eg, whether a CSG member) of a UE. However, when the target cell is open, the CSG information may be omitted.

In step 1519, if it is determined that the reporting condition is satisfied based on at least one of the UE location change reporting activity information and the CSG information reporting activity information, the MME 1550 requests the bearer modification to the S-GW / PDN_GW 1560. Send a (modify bearer request). The bearer modification request message is one of the UE location information and the CSG information reported and requested by the S-GW / PDN_GW 1560 so that the S-GW / PDN_GW 1560 may perform a function such as charging. At least one. The CSG information may include a CSG identifier of a cell, a connection mode of a cell, and subscription state information (eg, whether a CSG member) of a UE. However, when the target cell is open, the CSG information may be omitted. In step 1521, the S-GW / PDN_GW 1560 transmits a bearer modify response message to the MME 1550.

16 illustrates a handover procedure in a mobile communication system according to an eighth embodiment of the present invention.

Referring to FIG. 16, in step 1601, the source small base station 1620 transmits a handover required message to the small base station gateway 1640.

In step 1603, the small base station gateway 1640 determines whether the small base station gateway 1640 can be a handover termination based on whether transmission of user plan data is transmitted through one tunnel or two tunnels. . When two tunnels are used, the small base station gateway 1640 determines that the small base station gateway 1640 may be a handover termination, and step 1605 is performed. When one tunnel is used, the small base station gateway 1640 determines that the small base station gateway 1640 cannot be a handover termination, and the handover is performed by terminating the MME 1650. According to another embodiment of the present invention, when the small base station gateway 1640 always sets a user plan for the UE 1610 through two tunnels, that is, the user plan data always uses two tunnels. When transmitting through the handover request message, the small base station gateway 1640 may skip step 1603 and proceed directly to step 1605.

In step 1605, the small base station gateway 1640 transmits a handover request message to the target small base station 1630. In step 1607, the target small base station 1630 allocates resources to the UE 1610 and transmits a handover request ACK to the small base station gateway 1640. In step 1609, the small base station gateway 1640 transmits a handover command message to the source small base station 1620. In step 1611, the source small base station 1620 transmits a handover command message to the UE 1610. In operation 1613, the UE 1610 transmits a handover confirm message to the target small base station 1630. In step 1615, the target small base station 1630 transmits a handover notify message to the small base station gateway 1640. In step 1617, the small base station gateway 1640 transmits a UE context release command message to the source small base station 1620. In step 1619, the source small base station 1620 transmits a UE context release complete message to the small base station gateway 1640.

In step 1621, the small base station gateway 1640 transmits an S1AP message, such as a location reporting message, to the MME 1650. Here, the location report message may include at least one of UE location information and CSG information. The UE location information may include ECGI, TAI, and the like. The CSG information may include a CSG identifier of a cell, a connection mode of a cell, and subscription state information (eg, whether a CSG member) of a UE. However, when the target cell is open, the CSG information may be omitted.

In step 1623, if it is determined that the reporting condition is satisfied based on at least one of the UE location change reporting activity information and the CSG information reporting activity information, the MME 1650 requests the bearer modification to the S-GW / PDN_GW 1660. Send a (modify bearer request). The bearer modification request message may include the UE location information and the CSG information requested and reported by the S-GW / PDN_GW 1660 so that the S-GW / PDN_GW 1660 may perform a function such as charging. At least one. The CSG information may include a CSG identifier of a cell, a connection mode of a cell, and subscription state information (eg, whether a CSG member) of a UE. However, when the target cell is open, the CSG information may be omitted. In step 1625, the S-GW / PDN_GW 1660 transmits a bearer modify response message to the MME 1650.

17 illustrates a handover procedure in a mobile communication system according to a ninth embodiment of the present invention.

Referring to FIG. 17, in step 1701, the source small base station 1720 transmits a handover request message to the small base station gateway 1740.

In step 1703, the small base station gateway 1740 determines whether the small base station gateway 1740 can be a handover termination based on whether transmission of user plan data is transmitted through one tunnel or two tunnels. . When two tunnels are used, the small base station gateway 1740 determines that the small base station gateway 1740 may be a handover termination, and step 1705 is performed. When one tunnel is used, the small base station gateway 1740 determines that the small base station gateway 1740 cannot be a handover termination, and the handover is performed by terminating the MME 1750. According to another embodiment of the present invention, when the small base station gateway 1740 always establishes a user plan for the UE 1710 through two tunnels, that is, the user plan data always generates two tunnels. When transmitting through the handover request message, the small base station gateway 1740 may skip step 1703 and proceed directly to step 1705.

In step 1705, the small base station gateway 1740 transmits a handover request message to the target small base station 1730. In the embodiment shown in FIG. 15, in steps 1501 and 1505, the small base stations exchange information using the small base station gateway and the S1 interface. However, in steps 1701 and 1705, the small base stations 1720 and 1730 exchange information with the small base station gateway 1740 using an X2 interface. That is, in step 1701, the source small base station 1720 transmits an X2 Access Protocol (X2AP) handover request message to the small base station gateway 1740. In step 1705, the small base station gateway 1740 transmits an X2AP handover request message to the target small base station 1730.

In step 1707, the target small base station 1730 allocates resources to the UE 1710 and transmits a handover request ACK to the small base station gateway 1740. In step 1709, the small base station gateway 1740 transmits a handover command message to the source small base station 1720. In the embodiment illustrated in FIG. 16, in steps 1607 and 1609, the small base stations exchange information using the small base station gateway and the S1 interface. However, in steps 1707 and 1709, the small base stations 1720 and 1730 exchange information with the small base station gateway 1740 using an X2 interface. That is, in step 1707, the target small base station 1730 transmits an X2AP handover request ACK to the small base station gateway 1740. In step 1709, the small base station gateway 1740 transmits an X2AP handover request ACK to the source small base station 1720.

In step 1711, the source small base station 1720 transmits a handover command message to the UE 1710. In step 1713, the UE 1710 transmits a handover confirm message to the target small base station 1730. In step 1415, the target small base station 1730 transmits a handover notify message to the small base station gateway 1740. At this time, the target small base station 1730 transmits the hash handover notification message to the small base station gateway 1740 using the S1 interface. According to another embodiment of the present invention, in step 1715, the target small base station 1730 transmits a path switch request message to the small base station gateway 1740 using the X2 interface, and the small base station The gateway 1740 may be replaced by a process of transmitting a path change request ACK to the target small base station 1730 using an X2 interface.

In step 1717, the small base station gateway 1740 transmits a UE context release command message to the source small base station 1720. In step 1719, the source small base station 1720 transmits a UE context release complete message to the small base station gateway 1740. In steps 1717 and 1719, the target small base station 1730 and the small base station gateway 1740 transmit and receive information using an S1 interface. According to another embodiment of the present invention, in steps 1717 and 1719, the target small base station 1730 transmits a resource release message to the small base station gateway 1740 using an X2 interface, and The small base station gateway 1740 may be replaced by a process of transmitting a resource release message to the target small base station 1730 using the X2 interface.

In step 1721, when the reporting condition is satisfied, the small base station gateway 1740 transmits an S1AP message, such as a location reporting message, to the MME 1750. Here, the location report message includes information to be reported and may include, for example, UE location information such as ECGI and TAI. In addition, the S1AP message may further include CSG information. The CSG information may include a CSG identifier of a cell, a connection mode of a cell, and subscription state information (eg, whether a CSG member) of a UE. According to an embodiment of the present disclosure, the UE location information and the CSG information may be delivered separately through two messages or simultaneously delivered through one message.

In step 1723, the MME 1750 transmits a bearer modify request message to the S-GW / PDN_GW 1760. The bearer modification request message may include at least one of UE location information, such as ECGI and TAI, received from the small base station gateway 1740 and the CSG information so that the S-GW / PDN_GW 1760 may perform a charging function. It may include. The CSG information may include a CSG identifier of a cell, a connection mode of a cell, and subscription state information (eg, whether a CSG member) of a UE. According to an embodiment of the present disclosure, the UE location information and the CSG information may be delivered separately through two messages or simultaneously delivered through one message. In step 1725, the S-GW / PDN_GW 1760 transmits a bearer modify response message to the MME 1750.

18 is a block diagram of a small base station in a mobile communication system according to an exemplary embodiment of the present invention.

As illustrated in FIG. 18, the small base station includes a radio frequency (RF) processor 1810, a modem 1820, a backhaul communication unit 1830, a storage unit 1840, and a controller 1850.

The RF processor 1810 performs a function for transmitting and receiving a signal through a wireless channel such as band conversion and amplification of the signal. That is, the RF processor 1810 up-converts the baseband signal provided from the modem 1820 to an RF band signal and then transmits the signal through an antenna, and downlinks the RF band signal received through the antenna to a baseband signal. To convert. For example, the RF processor 1810 may include an amplifier, a mixer, an oscillator, a digital to analog converter (DAC), an analog to digital converter (ADC), and the like.

The modem 1820 performs a baseband signal and bit string conversion function according to the physical layer standard of the system. For example, according to an Orthgonal Frequency Division Multiplexing (OFDM) scheme, during data transmission, the modem 1820 generates complex symbols by encoding and modulating a transmission bit stream, and maps the complex symbols to subcarriers. OFDM symbols are constructed through IFFT operation and CP insertion. In addition, upon receiving data, the modem 1820 divides the baseband signal provided from the RF processor 1810 in OFDM symbol units, restores signals mapped to subcarriers through an FFT operation, and then demodulates and decodes the signal. Restore the received bit string through.

The backhaul communication unit 1830 provides an interface for the small base station to communicate with other nodes (eg, small base station gateway, MME, etc.). That is, the backhaul communication unit 1830 converts a bit string transmitted from the small base station to the other node into a physical signal, and converts a physical signal received from the other node into a bit string. The storage unit 1840 stores data such as a basic program and system information for the operation of the small base station. The storage unit 1840 provides the stored data at the request of the controller 1810.

The controller 1850 controls the overall function of the small base station. For example, the controller 1850 generates and transmits a transmission traffic packet and a message to the modem 420, and interprets the reception traffic packet and the message provided from the modem 420. In addition, the controller 1850 generates and interprets a message for signaling with higher nodes. In particular, according to an embodiment of the present disclosure, the controller 1850 supports handover of a UE connected to the small base station. For example, the controller 1850 controls the small base station to operate as shown in FIGS. 3A to 17. That is, the controller 1850 interprets a control message received from a UE, another small base station, a small base station gateway, an MME, and the like. In addition, the controller 1850 generates a control message and transmits the control message to the UE through the RF processor 1810 and the modem 1820 or the other small base station through the backhaul communication unit 1830. The control message is transmitted to the small base station gateway, the MME, and the like.

19 is a block diagram of a gateway in a mobile communication system according to an embodiment of the present invention.

As shown in FIG. 19, the gateway includes a communication unit 1910, a storage unit 1920, and a control unit 1930.

The communication unit 1910 provides an interface for communicating with other objects in the network. The storage unit 1920 stores a basic program for operating the gateway, system setting information, and the like.

The controller 1930 controls the overall functions of the gateway. For example, the controller 1930 controls traffic transmission and reception of small base stations connected to the gateway. In particular, according to an embodiment of the present disclosure, the controller 1930 controls a handover procedure of a UE for handover between small base stations connected to the gateway. To this end, the controller 1930 includes a handover processing unit 1932 to determine whether the gateway can be a handover termination, and to process a handover procedure. For example, the controller 1930 controls the gateway to operate as shown in FIGS. 3A to 17. For example, the communication unit 1910 receives a message indicating a handover of a UE from a small base station, and the controller 1930 determines whether the gateway can be the end of the handover, and terminates the handover. As a control to perform the handover procedure.

20 is a block diagram of an MME in a mobile communication system according to an embodiment of the present invention.

As shown in FIG. 20, the MME includes a communication unit 2010, a storage unit 2020, and a control unit 2030.

The communication unit 2010 provides an interface for communicating with other objects in the network. The storage unit 2020 stores a basic program for operating the MME, system setting information, and the like.

The controller 2030 controls the overall functions of the MME. In particular, according to an embodiment of the present disclosure, the controller 2030 controls a function for terminating a handover of a UE handing over between the small base stations at the small base station gateway. To this end, the controller 2030 includes an end determination information generation unit 2032 for generating reference information necessary for the small base station gateway to determine whether it can be a handover termination. Here, the reference information may include at least one of a list of accessible CSGs of the corresponding UE, UE location change report activity information, CSG information report activity information, and indication information indicating whether the small base station gateway can be a handover end. Can be. For example, the controller 2030 controls the MME to operate as shown in FIGS. 3A to 17. For example, the communication unit 2010 receives a message indicating the initial connection of the UE through a gateway, and the controller 2030 determines whether the gateway can be a handover end of the UE to the gateway. Control to provide the necessary reference information.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the scope of the following claims, but also by the equivalents of the claims.

Claims (34)

In the method of operating a gateway in a mobile communication system,
Receiving a message indicating a handover of the UE from the base station,
Determining whether the gateway can be an end of the handover;
Performing the handover procedure as an end of the handover.
The method of claim 1,
Determining whether the gateway can be the end of the handover,
And determining whether the gateway can be the end of the handover according to the indication information indicating whether the gateway determined by the MME can be the handover end.
The method of claim 1,
Determining whether the gateway can be the end of the handover,
Determining whether the handover can be terminated according to the number of tunnels in which user plan transmission of the UE is performed.
The method of claim 3,
Determining whether the gateway can be the end of the handover,
If the user plan transmission is performed through two tunnels, determining that the handover can be terminated.
The method of claim 1,
Determining whether the gateway can be the end of the handover,
Determining whether the handover can be terminated according to at least one of UE location change report activity information and CSG information report activity information of the UE.
The method of claim 5,
Determining whether the gateway can be the end of the handover,
If the UE location change report activity information includes the report stop, the CSG information reporting activity information is not reported when entering / leaving / accessing the CSG type cell, not reported when entering / leaving / accessing the combined hybrid cell, And determining that the handover can be terminated when at least one of the cases of including unreported at entry / exit / access to the unsubscribed hybrid cell is satisfied.
The method of claim 1,
Receiving reference information required for determining whether the gateway can be a handover end from an MME.
The method of claim 7, wherein
The reference information includes at least one of indication information indicating whether the gateway can be a handover end, UE location change report activity information of the UE, CSG information report activity information of the UE, and a list of accessible CSGs of the UE. A method comprising one.
The method of claim 7, wherein
And receiving updated reference information from the MME.
In the operation method of the MME in a mobile communication system,
Receiving a message notifying the initial connection of the UE through the gateway,
Transmitting reference information necessary for determining whether the gateway can be a handover end of the UE to the gateway.
The method of claim 10,
The reference information includes at least one of indication information indicating whether the gateway can be a handover end, UE location change report activity information of the UE, CSG information report activity information of the UE, and a list of accessible CSGs of the UE. A method comprising one.
The method of claim 10,
If the reference information is updated, further comprising transmitting the updated reference information.
The method of claim 10,
Determining whether the gateway can be an end of the handover;
The reference information includes indication information for informing the determination of the MME.
The method of claim 13,
Determining whether the gateway can be the end of the handover,
Determining whether the handover can be terminated according to the number of tunnels in which user plan transmission of the UE is performed.
The method of claim 14,
Determining whether the gateway can be the end of the handover,
If the user plan transmission is performed through two tunnels, determining that the handover can be terminated.
The method of claim 13,
Determining whether the gateway can be the end of the handover,
Determining whether the handover can be terminated according to at least one of UE location change report activity information and CSG information report activity information of the UE.
The method of claim 16,
Determining whether the gateway can be the end of the handover,
If the UE location change report activity information includes the report stop, the CSG information reporting activity information is not reported when entering / leaving / accessing the CSG type cell, not reported when entering / leaving / accessing the combined hybrid cell, And determining that the handover can be terminated when at least one of the cases of including unreported at entry / exit / access to the unsubscribed hybrid cell is satisfied.
A gateway device in a mobile communication system,
A communication unit for receiving a message indicating a handover of the UE from the base station,
And a controller for determining whether the gateway can be the end of the handover and performing the handover procedure as the end of the handover.
The method of claim 18,
And the control unit determines whether the terminal can be the end of the handover according to the indication information indicating whether the gateway determined by the MME can be the handover end.
The method of claim 18,
The controller may determine whether the handover may be terminated according to the number of tunnels in which user plan transmission of the UE is performed.
The method of claim 20,
The control unit, if the user plan transmission is performed through the two tunnels, characterized in that it can be the end of the handover.
The method of claim 18,
The controller may determine whether the handover may be terminated according to at least one of UE location change report activity information and CSG information report activity information of the UE.
The method of claim 22,
The control unit, when the UE location change reporting activity information includes the report stop, when the CSG information reporting activity information is not reported when entering / leaving / accessing the CSG type cell, entering / leaving / accessing the combined composite cell And at least one of a case of including an unreported and an unreported at entry / exit / access to an unsubscribed hybrid cell, determines that the terminal can be terminated.
The method of claim 18,
The communication unit, characterized in that for receiving the reference information required to determine whether the gateway can be a handover end from the MME.
25. The method of claim 24,
The reference information includes at least one of indication information indicating whether the gateway can be a handover end, UE location change report activity information of the UE, CSG information report activity information of the UE, and a list of accessible CSGs of the UE. Apparatus comprising one.
25. The method of claim 24,
The communication unit, characterized in that for receiving the updated reference information from the MME.
An MME device in a mobile communication system,
A communication unit which receives a message indicating the initial connection of the UE through the gateway,
And controlling the gateway to provide reference information necessary for determining whether the gateway can be a handover end of the UE.
The method of claim 27,
The reference information includes at least one of indication information indicating whether the gateway can be a handover end, UE location change report activity information of the UE, CSG information report activity information of the UE, and a list of accessible CSGs of the UE. Apparatus comprising one.
The method of claim 27,
The control unit, if the reference information is updated, characterized in that for controlling to provide updated reference information.
The method of claim 27,
The controller determines whether the gateway can be the end of the handover,
The reference information device, characterized in that it includes indication information for informing the determination of the MME.
The method of claim 30,
The controller may determine whether the handover may be terminated according to the number of tunnels in which user plan transmission of the UE is performed.
32. The method of claim 31,
The control unit, if the user plan transmission is performed through the two tunnels, characterized in that it can be the end of the handover.
The method of claim 30,
The controller may determine whether the handover may be terminated according to at least one of UE location change report activity information and CSG information report activity information of the UE.
The method of claim 33, wherein
The control unit, when the UE location change reporting activity information includes the report stop, when the CSG information reporting activity information is not reported when entering / leaving / accessing the CSG type cell, entering / leaving / accessing the combined composite cell And at least one of a case of including an unreported and an unreported at entry / exit / access to an unsubscribed hybrid cell, determines that the terminal can be terminated.

Images