KR101680107B1 - Method and apparatus for acquisition of target cell configuration information by a source cell in a wireless communication system and sytem thereof - Google Patents

Abstract

A method of acquiring configuration information between a source cell and a target cell in a wireless communication system provided by the present invention includes the steps of a terminal transmitting a measurement report including identification information of the target cell to the source cell, Transmitting a handover request message including a configuration information request of the target cell to the source mobility management entity when the source cell does not include the target cell configuration information in the source cell; The method comprising the steps of: a mobility management entity transmitting a handover request message including a configuration information request of the target cell to the target cell; receiving a handover response message including configuration information of the target cell from the target cell, The mobility management entity transmitting the setting information of the target cell to the mobile station; The de-over command comprises the step of transmitting the source cell.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method and apparatus for acquiring configuration information of a target base station in a wireless communication system,

The present invention relates to a wireless communication system. And more particularly, to a method and apparatus and a system for a source base station to acquire configuration information of a target base station in a wireless communication system.

Recently, a wireless communication system considering a femtocell has been studied. The femtocell is a miniature mobile communication base station connected to a mobile communication core network through a broadband communication network installed in a home or an office. The femtocell typically has a cell radius of 10 meters or less A base station that can be used. The femtocell has various advantages such as expanding indoor coverage, improving call quality, and efficiently providing various wired / wireless convergence services.

For example, the 3 rd Generation Partnership Project (3GPP) considers a wireless communication system equipped with a CSG (Closed Subscriber Group) cell base station capable of accessing only specific users apart from a macro cell base station of an existing wireless communication system .

The CSG cell refers to a cell that can only access terminals belonging to a specific group (i.e., CSG) registered in advance so as to be able to access the cell. The CSG cell may be a home cell installed in a narrow area such as an individual's home, or a corporate / regional network cell installed in a large area for an enterprise or a specific organization. The CSG cell is very similar to the femtocell. Hereinafter, the femtocell will be used with the same meaning as the CSG cell.

Meanwhile, in a wireless communication system, in order for a source cell to acquire various necessary information of a target cell, such as a handover from a source cell to a target cell, a source cell is transmitted from the terminal to the target cell It is common to obtain information about For example, in the case of a handover operation, the UE analyzes a signal transmitted from the target cell to acquire a cell identifier (PCI), and transmits a measurement report based on the acquired cell identifier report to the source cell, the source cell can determine handover of the terminal.

However, in order to perform such an operation, a radio resource of the base station is required, and an overhead for the operation occurs in the terminal. Also, if the size of the measurement report of the UE increases in a state where the channel state between the UE and the source cell is not good as in a situation where a handover is required, the transmission success rate of the measurement report may be lowered and the performance of the handover may deteriorate.

The present invention provides a method and apparatus and a system for a source cell to acquire configuration information of a target cell in a wireless communication system.

The present invention provides a method and apparatus and a system for a source cell to acquire information of a target cell without using a measurement report of a terminal in a wireless communication system including a macro cell and a femtocell.

The present invention provides a method and apparatus and a system for a source cell to acquire information of a target cell through a core network in a wireless communication system including a macro cell and a femtocell.

A method of acquiring configuration information between a source cell and a target cell in a wireless communication system provided by the present invention includes the steps of a terminal transmitting a measurement report including identification information of the target cell to the source cell, Transmitting a handover request message including a configuration information request of the target cell to the source mobility management entity when the source cell does not include the target cell configuration information in the source cell; The method comprising the steps of: a mobility management entity transmitting a handover request message including a configuration information request of the target cell to the target cell; receiving a handover response message including configuration information of the target cell from the target cell, The mobility management entity transmitting the setting information of the target cell to the mobile station; Wherein the step of transmitting a handover request message including a configuration information request of the target cell to the mobility management entity comprises the steps of: To the mobility management entity, a handover request message including identification information of the mobility management entity.

A method for acquiring configuration information of a target cell from a source cell in a wireless communication system provided by the present invention includes the steps of: receiving a measurement report including identification information of the target cell from the terminal; Transmitting a handover request message including a configuration information request of the target cell to a mobility management entity if the source cell does not include the configuration information of the target cell, And receiving a handover command including setting information of the target cell requested by the mobility management entity in response to the target cell. And transmitting a handover request message including a configuration information request of the target cell to the mobility management entity, the mobility management entity transmitting a handover request message including identification information of the target cell to the mobility management entity .

A method of providing configuration information to a source cell in a wireless communication system provided by the present invention includes receiving a handover request message from a source cell via a mobility management entity, And transmitting the handover response message including the configuration information of the target cell to the source cell via the mobility management entity when the message includes the setting information of the target cell. And when the received handover request message includes the setup information of the target cell, the received handover request message includes the identification information of the target cell.

A method for updating setting information of a target cell in a source cell storing identification information of a target cell and setting information of a target cell in a wireless communication system provided by the present invention includes: Transmitting a report to the source cell; and when the source cell determines handover according to the measurement report, the source cell transmits a Mobility Management Entity (MME) Transmitting a handover request message including setting information of the target cell to the target cell, and transmitting the handover request message including the setting information of the target cell to the target cell, If the setting information matches the current setting information of the target cell, a handover response message including the current setting information is transmitted It comprises the step of transmitting the source cell, through a group MME.

A method of updating setting information of a target cell in which a source cell storing identification information of a target cell and setting information of a target cell in a wireless communication system provided by the present invention includes identification information of the target cell The method comprising the steps of: receiving a measurement report by a MME; receiving a measurement report by the MME; and, when the handover is determined according to the received measurement report, transmitting a handover request including configuration information of the stored target cell to the MME via a Mobility Management Entity Receiving a handover response message for the handover request transmitted by the target cell through the MME; and if the handover response message includes setting information of a new target cell, And updating the setting information of the stored target cell with the setting information of the new target cell.

A method for updating setting information of a target cell to a source cell in which a target cell stores identification information of the target cell and setting information of the target cell in a wireless communication system provided by the present invention includes a Mobility Management Receiving a handover request including configuration information of the target cell from an entity (MME) of the target cell, and, if the configuration information of the target cell matches the configuration information of the target cell, And transmitting a response message to the source cell through the MME.

Meanwhile, in the above methods, the source cell is a macro cell, the target cell is a femtocell, and the setting information of the target cell is a closed subscriber group ID that can be connected to the femtocell .

Effects of the configuration of the present invention are as follows.

In the present invention, since the UE transmits the measurement report including the identification information of the target cell and the measurement information not including the setting information to the source cell, the overhead for transmitting the setting information of the existing target cell is reduced, The performance of the handover can be improved since the transmission rate of the measurement report is increased even when the channel state between the UE and the source cell is not good as in the case where handover is required. Further, even if the setting information of the target cell stored in the source cell is different from the setting information of the current target cell, the setting information of the target cell can be updated efficiently in the source cell.

1 is a diagram illustrating a configuration of a wireless communication system including a macro cell base station and a femtocell base station to which the present invention is applied,
2 is a diagram illustrating a method for a terminal 200 to perform a handover from a source cell 202 to a target cell 206,
3 is a view for explaining an operation of receiving setting information of a target cell in a source cell while a terminal is performing a handover according to the first embodiment of the present invention;
4 is a view for explaining an operation of receiving setting information of a target cell in a source cell while a terminal is performing a handover according to a second embodiment of the present invention;
5 is a view for explaining the operation of the source cell 302 according to the first embodiment of the present invention,
6 is a view for explaining the operation of the target cell 304 according to the first embodiment of the present invention,
7 is a view for explaining the operation of the source cell 402 according to the second embodiment of the present invention,
8 is a view for explaining the operation of the target cell 404 according to the second embodiment of the present invention,
9 is a diagram illustrating an operation of receiving setting information of a target cell 904 in a source cell 902 during a handover of a terminal according to a third embodiment of the present invention;
10 is a view for explaining the operation of the source cell 902 according to the third embodiment of the present invention,
11 is a view for explaining the operation of the target cell 904 according to the third embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be noted that the same elements among the drawings are denoted by the same reference numerals whenever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Hereinafter, terminology based on the 3GPP LTE (Long Term Evolution) system standard is used for the sake of convenience of description, but the use of such terminology is for convenience of explanation, and the present invention is not limited to the LTE system, It should be noted that the present invention can be applied to similar systems. In the present invention, a cell or a base station can be used in the same sense.

For convenience of description, a handover situation in a wireless communication system including a macro cell and a femtocell will be described. However, the present invention is not intended to limit the present invention. In the cellular wireless communication system, The same can be applied to the case of acquiring the setting information of the cell.

1 is a diagram illustrating a configuration of a wireless communication system including a macro cell base station and a femtocell base station to which the present invention is applied.

1, a wireless communication network includes a macro cell base station 102, a femtocell base station (HeNB) 104, a mobility management entity (MME) 108, a MME 108, A femtocell base station gateway (HeNB GW) 106 and a user equipment (UE) Meanwhile, the femtocell base station gateway 106 may not be included according to the implementation method of the system.

The macro cell base station 102 is a base station that supervises a macro cell and is connected to the terminal 100 through a wireless channel and controls radio resources. For example, the macro cell base station 102 may generate necessary system control information in the macro cell and broadcast it, or may allocate radio resources to transmit / receive data or control information to / from the terminal 100 .

In addition, the macro cell base station 102 may determine handover by receiving channel measurement information of the current cell and neighbor cells transmitted from the terminals 100, and may instruct handover accordingly. The macro cell base station 102 for this purpose includes a control protocol such as a radio resource control (RRC) protocol related to radio resource management.

The femtocell base station 104 is a base station managing a femtocell (or a CSG cell), and is connected to a core network such as the MME 108 to provide a mobile communication service to the terminal 100. In addition, the femtocell base station 104 according to the present invention provides a mobile communication service only to a terminal registered to itself, and includes a CSG ID, which is information of a specific group to which the femtocell base station 104 provides service, in a SIB (System Information Block) do.

The MME 108 manages a terminal in an idle mode, selects a PDS (Packet Data Network) gateway and a serving gateway (not shown), and performs functions related to roaming and authentication . In addition, the MME 108 according to the present invention may include configuration information (e.g., CSG ID) for femtocell base stations to which each terminal can access in the form of a UE Allowed CSG List have.

The femtocell base station gateway (HeNB GW) 106 performs a role of connecting the MME 108 and the femtocell base station 104, and may not be separately installed according to an implementation method.

The terminal 100 can access the core network through the macro cell base station 102 or the femtocell base station 104. In this case, the UE 100 receives and stores a UE Allowed CSG List from a core network entity (not shown) such as an OMA DM (Open Mobile Alliance - Device Management) server. In addition, the terminal 100 receives a system information block broadcasted from the femtocell base station 104, identifies identification information of each femtocell base station, compares it with the access permission list, It is possible to identify the femtocell base station. Also, the terminal 100 acquires a femtocell dedicated cell ID (Physical Cell ID) from the macro cell base station 102 or the femtocell base station 104 and searches for a synchronization channel (SCH) Measurement can be performed.

Hereinafter, the description will be made assuming that the macro cell base station 102 is a serving base station. However, the present invention can also be applied to a case where the femtocell base station 104 is a serving base station. Meanwhile, in the description for the handover operation, the serving base station can be used in the same meaning as the source base station.

Now, prior to the description of the present invention, a conventional method of performing a handover from a source cell to a target cell will be described with reference to FIG.

2 is a view for explaining a method in which a terminal 200 performs a handover from a source cell 202 to a target cell 206. FIG.

2, in step 208, the UE 200 transmits EUTRAN Cell Global Identification (ECGI) and target cell setting information, for example, a CSG ID, to the source cell 202 through a measurement report . The ECGI is a unique identifier that is mapped on a one-to-one basis with the target cell 206 to identify the target cell 206. In step 210, the source cell 202 receiving the identification information and the setting information of the target cell stores the received information.

In step 212, the UE 200 may perform another measurement report including the identification information of the target cell. In step 214, the source cell 202 transmits the measurement report transmitted in step 208 or 212, The handover request message including the target cell identification information (ECGI) and the target cell configuration information (target CSG ID) stored in step 210 is transmitted to the MME 204 send.

In step 216, the MME 204 checks if the target cell configuration information (Target CSG ID) is included in the UE allowed CSG List of the UE, and if so, And stops the handover if it is not included. This process is called access control.

If the MME 204 determines to continue the handover of the UE in step 216, it transmits a handover request including the target cell configuration information (Target CSG ID) to the target cell 206 in step 218 .

In step 220, the target cell 206 checks whether the configuration information (Target CSG ID) of the received target cell matches its configuration information (CSG ID). This is to check whether the configuration information (Target CSG ID) of the target cell transmitted by the UE 200 is correct or not in step 208.

If the target cell 206 does not match the target CSG ID and the CSG ID of the received target cell, the target cell 206 rejects the handover request in step 218. If the target cell 206 and the target cell 206 match, Handover is allowed and the handover response message is transmitted to the MME 204 in step 222. [

The MME 204 having received the handover response message commands the handover of the terminal 200 to the source cell 202 in step 224 and the source cell 202 having received the handover command transmits the handover command to the terminal 200 200 to hand over to the target cell 206. Then, the UE 200 performs an operation for performing handover to the target cell 206 in step 228.

According to the handover operation shown in FIG. 2, the terminal 200 transmits target cell configuration information (Target CSG ID) to the source cell 202 through a measurement report. However, in order to perform such an operation, a radio resource of the base station is required, and an overhead for the operation occurs in the terminal. In particular, if the terminal 200 performs a measurement report on the target cell configuration information (target CSG ID) at a time point when a handover of the terminal is required, Since the measurement report message having a relatively large size is transmitted in a state where the channel condition for transmission and reception is not good, the transmission success rate of the measurement report message is lowered and the handover performance of the terminal may be deteriorated.

Hereinafter, an embodiment in which a source cell acquires setting information of a target cell in a wireless communication system including a femtocell will be described in detail. Embodiments of the present invention include three embodiments.

In the first embodiment, the UE does not include the setting information of the target cell, performs the measurement report including the identification information of the target cell, and the source cell transmits the handover execution request message including the target cell setting information request to the MME The setting information of the target cell is acquired.

On the other hand, in the second embodiment, the UE does not include the setting information of the target cell, performs a measurement report including the identification information of the target cell, the source cell does not include the setting information of the target cell, And transmits the handover request including the information to the MME.

Also, in the third embodiment, when the source cell already stores the identification information of the target cell, the terminal reports the measurement including the identification information of the target cell, and the source cell makes a handover request to the target cell via the MME If the identification information of the target cell stored in the source cell is different from the configuration information of the current target cell, receives the changed configuration information from the target cell and updates the previously stored configuration information with the changed configuration information.

3 is a view for explaining an operation of receiving setting information of a target cell in a source cell while a terminal is performing a handover according to the first embodiment of the present invention.

In step 308, the UE 300 transmits a measurement report including the identification information of the target cell to be handed over to the source cell 302. The source cell 302 checks whether the setting information (CSG ID) of the target cell is stored using the target cell identification information (ECGI). If the setting information is stored, the source cell 302 performs steps 214 through 228 And performs handover of the terminal through the operation of step.

In FIG. 3, it is assumed that the source cell 302 does not store the setting information of the target cell. In this case, the source cell 302 transmits a handover execution request message including the identification information (ECGI) of the target cell to the MME 304 in order to request the setting information of the target cell.

In step 312, the MME 304 delivers a handover execution request message including the transmitted target cell configuration information request to the target cell 306. [ The request information of the target cell of the MME 304 may be implemented by including an indicator for directing the target cell setup information request to the handover execution request message.

In step 314, the target cell 306 transmits a handover response message including its own configuration information, i.e., a CSG ID, to the MME 304. In step 318, And transmits a handover performing command including information to the source cell (302).

The source cell 302 acquires both the target cell identification information (ECGI) and the target cell configuration information (Target CSG ID) through steps 308 and 318, and stores the acquired information in step 320. In step 320, The source cell 302 having received the handover command instructs the terminal 300 to perform a handover to the target cell 306 in step 322. In step 324, The handover to the target cell 306 is performed.

According to the first embodiment described above, when the terminal 300 transmits the measurement report including the ECGI of the target cell 306 and does not include the CSG ID to the source cell 302, Since the handover execution request message including the target cell configuration information request is transmitted to the MME 304 to obtain the setting information of the target cell 306, the overhead of the mobile station can be reduced, Since the size of the measurement report message is reduced and the success rate of the measurement report message is increased, the performance of the handover can be enhanced.

4 is a view for explaining an operation of receiving setting information of a target cell in a source cell while a terminal is performing a handover according to a second embodiment of the present invention.

Referring to FIG. 4, in step 408, the AT 400 transmits a measurement report including the identification information (ECGI) of the target cell to the source cell 402. The source cell 402 checks whether the configuration information (CSG ID) of the transmitted target cell is stored using the identification information of the target cell. If the configuration information is stored, the source cell 402 performs steps 214 through 228 of FIG. 2 And performs handover of the terminal through the operation of FIG.

In FIG. 4, it is assumed that the source cell 402 does not store the setting information of the target cell. Therefore, the source cell 402 transmits a handover execution request message including the identification information (ECGI) of the target cell to the MME 304 in step 410. In step 412, the MME 404 transmits a handover request message including the ECGI to the target cell 406. Meanwhile, the handover request message transmitted by the MME 304 does not include a direct indicator for requesting the setting information of the target cell. The handover request message transmitted from the MME 404 to the target cell 406 May consider a handover request message that does not include the direct indicator as a configuration information request of the target cell.

In step 414, the target cell 406 determines that its configuration information (CSG ID) is not included in the handover request message transmitted in step 412, regards it as an indicator for requesting configuration information, And transmits a handover response message including the ID to the MME 404.

In step 416, the MME 404 performs access control using the transmitted CSG ID. That is, if the target CSG ID transmitted in step 414 is included in the access allowed list (UE Allowed CSG List) of the UE 400 included in the MME 404, the handover of the UE is continuously performed, Stop handover.

Since the target CSG ID has been received in step 414, the MME 404 determines that the MME 404 will continue the handover. Therefore, in step 418, the handover command including the target CSG ID is transmitted to the source cell 402 .

The source cell 402 acquires both the target cell identification information (ECGI) and the target cell configuration information (Target CSG ID) through steps 408 and 418, and stores the acquired information in step 420. [ The source cell 402 receives the handover command and instructs the terminal 400 to perform handover to the target cell 406 in step 422. In step 424, And performs handover to the target cell 406 according to the handover request.

Comparing the above-described operation of the second embodiment of FIG. 4 with the operation of the first embodiment of FIG. 3, the terminal 400 includes the ECGI of the target cell and transmits the measurement report that does not include the CSG ID to the source cell 402 , The source cell 402 also carries out a handover request including the ECGI and not including the CSG ID, which is the same as the case in which the source cell 302 directly requests the target cell setting information in FIG. 3 Function can be performed.

5 is a view for explaining the operation of the source cell 302 according to the first embodiment of the present invention.

In step 502, the source cell 302 receives a measurement report including the target cell identification information (ECGI) from the terminal 300, and determines whether the terminal is handed over using the received measurement report in step 504 .

In step 506, it is determined whether the target cell has the target cell configuration information using the target cell identification information (ECGI). If the target cell has no configuration information of the target cell, the target cell configuration information request is transmitted And includes it in the handover execution request message. In step 510, the MME 304 transmits the handover execution request message.

In step 512, upon receipt of the handover command message corresponding to the handover execution request message from the MME 304, it is determined whether the handover command message includes the target cell configuration information. If the target cell configuration information is included in the handover command message, the target cell identification information and the setting information are stored in the source cell 302 in step 516. Then, in step 518, the source cell 302 instructs the terminal 300 to perform handover.

If the source cell has the configuration information of the target cell in step 506, the mobile station proceeds directly to step 510 and transmits a handover execution request message to the MME 304. In this case, the target cell setup information request is not included in the handover execution request message. In this case, the handover command received from the MME 304 does not include the target cell configuration information in step 514, so the mobile terminal proceeds to step 518 and transmits a handover command to the terminal.

6 is a view for explaining the operation of the target cell 304 according to the first embodiment of the present invention.

In step 602, the target cell 306 receives a handover execution request message of the terminal 300 from the MME 304. In step 604, if the target cell configuration information request indicator is included in the handover execution request message, the target cell configuration information is included in the handover response message in step 606. [ In step 608, the MME 304 transmits a handover response message including the target cell configuration information.

If the target cell setup information request indicator is not included in the handover execution request message received in step 604, the BS proceeds to step 608 and transmits a handover response message including no target cell setup information to the MME 608 do.

7 is a view for explaining the operation of the source cell 402 according to the second embodiment of the present invention.

In step 702, the source cell 402 receives a measurement report including the target cell identification information (ECGI) from the terminal 400, and determines whether the terminal is handed over using the received measurement report in step 704 .

In step 706, the base station determines whether the base station has the target cell configuration information using the target cell identification information (ECGI). If the base station has the target cell configuration information, the base station proceeds to step 708, In the over-performance request message. In step 710, the MME 304 transmits the handover execution request message.

Thereafter, in step 712, the MME 304 receives a handover command message corresponding to the handover execution request message. However, in this case, since the handover command received from the MME 304 does not include setting information of the target cell in step 714, the handover command is transmitted to the terminal in step 718.

If it is determined in step 706 that the source cell does not have the configuration information of the target cell, the mobile station proceeds directly to step 710 and transmits a handover execution request message to the MME 304. In this case, the target cell setup information request is not included in the handover execution request message. In this case, since the handover command message includes the target cell setting information in step 714, the target cell identification information and the setting information are stored in the source cell 302 in step 716. Then, in step 718, the source cell 302 instructs the terminal 300 to perform handover.

8 is a view for explaining the operation of the target cell 404 according to the second embodiment of the present invention.

In step 802, the target cell 406 receives a handover execution request message of the terminal 400 from the MME 404. If it is determined in step 804 that the handover execution request message includes the target cell configuration information, the MME 304 proceeds to step 808 and transmits a handover response message to the MME 304. On the other hand, if the target cell configuration information is not included in the handover execution request message received in step 804, the target cell configuration information is included in the handover response message in step 806. In step 808, the MME 408 transmits a handover response message including no target cell configuration information.

9 is a view for explaining an operation of receiving setting information of a target cell in a source cell while a terminal is performing a handover according to the third embodiment of the present invention.

As described above, the third embodiment assumes that the source cell 902 stores the identification information and the setting information of the target cell. However, the manner in which the source cell 902 acquires the identification information and the setting information of the target cell is not particularly limited. Therefore, the conventional method described in FIG. 2 may be used, or the method of the first and second embodiments of the present invention described above may be used.

In the third embodiment, the target cell 906 is a CSG cell, but it is assumed that not only a terminal registered in the target cell 906 but also a terminal not registered in the target cell 906 are also supported. In other words, the CSG cell operates to support a terminal registered in its own case in general, but it may be set to a mode supporting all terminals other than a registered user in some cases. The third embodiment assumes this situation. For convenience of explanation, the former will be referred to as " CSG mode " and the latter will be referred to as " Hybrid mode ".

Referring to FIG. 9, step 908 shows that the source cell 902 stores the identification information of the target cell and the setting information of the target cell in advance. In step 910, the MS 900 performs a measurement report including the identification information of the target cell. In step 912, the source cell 902 performs handover of the MS 900 based on the measurement report transmitted in step 910 It transmits a handover request message including the stored target cell identification information (ECGI) and target cell configuration information (target CSG ID) to the MME 904 in step 908.

If the target cell 906 operates in the CSG mode, the MME 904 stores the target cell setting information (Target CSG ID) in the UE allowed CSG List of the UE in step 914 If it is included, the handover of the terminal is continuously performed, and if not, the handover is stopped. This process is called access control.

On the other hand, if the target cell 906 operates in the hybrid mode, the MME 904 determines that handover should be performed immediately without the need to perform the access control of step 914 because the target cell 906 supports all terminals do. Meanwhile, the MME 904 can know the operation mode of the target cell 906 through the operation mode information received from the source cell 902. For example, the source cell 902 may include the operation mode information of the target cell 906 in the handover request message of step 912 and transmit it.

If it is determined in step 914 that the MME 904 continues to perform the handover of the UE, the MME 904 transmits a handover request including the target cell configuration information (Target CSG ID) to the target cell 906).

In step 918, the target cell 906 checks whether the configuration information (Target CSG ID) of the received target cell matches its configuration information (CSG ID). This is to check whether the configuration information (Target CSG ID) of the target cell transmitted from the terminal 900 is correct in step 918.

The operation of the target cell 906 after validation depends on the mode of operation of the target cell 906. First, a case of operating in the hybrid mode will be described. 9, the operation after step 918 assumes that the target cell 906 operates in the hybrid mode.

Since the target cell 906 is operating in the hybrid mode, handover must be permitted even if the target cell configuration information (Target CSG ID) received in step 918 does not match its configuration information (CSG ID). Therefore, the target cell 906 transmits a handover response message including its configuration information (CSG ID) to the MME 904 in step 920.

When the target cell 906 receives the setting information of the target cell received from the MME 904 and does not match the current setting information of the target cell 906, It can happen in the same example. For example, the target cell 906 is operating in the CSG mode before the present time, and the configuration information used at this time is the CSG ID 1, the hybrid cell is operating in the hybrid mode since the current time, and the setting information is changed to the CSG ID 2 . In this case, if the UE 906 obtains the CSG ID 1 and reports the measurement to the source cell using the CSG ID 1, the target cell 906 acquires the configuration information (i.e., CSG ID 1) received from the MME 904 The setting information (i.e., CSG ID 2) does not match. In this case, the target cell 906 needs to inform the source cell 902 of its changed setting information. Therefore, as described above, the target cell 906 transmits a handover response including its own setting information to the MME 904 even when the setting information received from the MME 904 does not match its own setting information.

9, if the MME 904 receives the handover response message in step 920, the MME 904 transmits the handover response message to the source cell 902 in step 922, And transmits a handover command including setting information. Then, in step 924, the setting information of the target cell stored in step 908 is updated with the setting information of the new target cell received in step 911. The source cell 902 instructs the terminal 900 to perform handover to the target cell 906 in step 926 and the terminal 900 performs an operation to perform handover to the target cell 906 in step 928 .

9, a case where the target cell 906 operates in the CSG mode will be described. In step 918, the target cell 906 transmits a handover request in step 916 to the target cell 906 when the target cell 906 does not match the configuration information (CSG ID) If both are matched, handover is allowed and the handover response message will be transmitted to the MME 904 in step 920. At this time, if the handover request is rejected, the target cell 906 transmits a handover rejection message to the MME 904 and can transmit its current configuration information (CSG ID) to the handover rejection message. The MME 904 transmits a handover reject message including setting information of the target cell 906 to the source cell 902 in step 922 and transmits the setting information of the target cell to the source cell 902 in step 911, The setting information of the target cell can be updated.

10 is a view for explaining the operation of the source cell 902 according to the third embodiment of the present invention.

In step 1002, the source cell stores the identification information of the target cell and the setting information of the target cell. There is no particular limitation on the manner in which the source cell acquires the identification information and the setting information of the target cell. Therefore, the conventional method described in FIG. 2 may be used, or the method of the first and second embodiments of the present invention described above may be used.

In step 1004, a measurement report including identification information of the target cell is received from the terminal. If it is determined in step 1006 that the terminal should be handed over to the target cell using the measurement report, in step 1008, And transmits the handover request message including the identification information of the target cell and the setting information of the target cell to the MME. The MME will then send a handover request message containing the identity of the target cell to the target cell.

In step 1010, a response to the request, i.e., a handover response message, is received through the MME in the handover transmitted from the target cell.

In step 1012, if the target cell configuration information is included in the response to the handover request, the target cell configuration information is updated in step 1014. That is, in step 1002, the setting information of the target cell previously stored is updated with the setting information of the new target cell included in the response message for the handover request. Thereafter, the mobile station proceeds to step 1016 and performs subsequent operations according to the handover response message. That is, if the handover response message is a handover permission response message, the handover is instructed to the terminal, and if the handover response message is a handover rejection response message, the handover is not directed to the terminal.

If it is determined in step 1012 that the handover response message does not contain the target cell configuration information, the mobile station proceeds to step 1016 and performs an operation according to the type of the handover response message.

11 is a view for explaining the operation of the target cell according to the third embodiment of the present invention.

In step 1102, the target cell receives a handover request message including setting information of the target cell from the MME.

If it is determined in step 1104 that the received configuration information of the target cell matches the configuration information of the target cell, the process proceeds to step 1106 where a response message of accepting the handover is transmitted to the source cell via the MME. If not, .

In step 1108, the target cell generates a handover response message including its configuration information and transmits it to the source cell through the MME. If the target cell is operating in the hybrid mode, the handover response message will be a handover permission response message, and if the target cell is operating in the CSG mode, the handover response message will be a handover rejection message .

Claims (21)

A method for acquiring configuration information between a source cell and a target cell in a wireless communication system,
Transmitting a measurement report including identification information of the target cell to the source cell;
If the source cell determines handover according to the measurement report and there is no configuration information of the target cell in the source cell, the source cell transmits to the mobility management entity a handover request message including a configuration information request of the target cell Transmitting,
Transmitting, by the mobility management entity, a handover request message including a configuration information request of the target cell to the target cell;
Transmitting, by the mobility management entity, a handover response message in which the target cell includes configuration information of the target cell;
And transmitting, by the mobility management entity, a handover command including configuration information of the target cell to the source cell,
The source cell is a macro cell,
Wherein the target cell is a femtocell,
Wherein the setting information of the target cell is a Closed Subscriber Group ID connectable to the femtocell. The method of claim 1, wherein the source cell transmits a handover request message including a configuration information request of the target cell to the mobility management entity,
Wherein the source cell transmits a handover request message including identification information of the target cell to the mobility management entity. delete A method for a source cell acquiring configuration information of a target cell in a wireless communication system,
Receiving a measurement report including identification information of the target cell from a terminal;
Transmitting a handover request message including a configuration information request of the target cell to a mobility management entity when the handover is determined according to the received measurement report and there is no configuration information of the target cell in the source cell;
Receiving a handover command including configuration information of the target cell obtained by requesting the target cell from the mobility management entity in response to the handover request message,
The source cell is a macro cell,
Wherein the target cell is a femtocell,
Wherein the setting information of the target cell is a Closed Subscriber Group ID connectable to the femtocell. 5. The method of claim 4, wherein the step of transmitting a handover request message including a configuration information request of the target cell to the mobility management entity comprises:
And transmitting a handover request message including identification information of the target cell to the mobility management entity. delete A method of providing configuration information to a source cell in a wireless communication system,
Receiving a handover request message from a source cell via a mobility management entity;
And transmitting a handover response message including configuration information of the target cell to the source cell via the mobility management entity when the received handover request message includes a configuration information request of the target cell, ,
The source cell is a macro cell,
Wherein the target cell is a femtocell,
Wherein the setting information of the target cell is a Closed Subscriber Group ID connectable to the femtocell. The method of claim 7, wherein if the received handover request message includes a configuration information request of the target cell,
Wherein the handover request message includes the identification information of the target cell in the received handover request message. delete A method for updating setting information of a target cell in a source cell storing identification information of a target cell and setting information of a target cell in a wireless communication system,
Transmitting a measurement report including identification information of the target cell to the source cell;
The source cell transmits a handover request message including the identification information of the target cell and the setting information of the target cell to the MME, Transmitting,
Transmitting, to the target cell, a handover request message including setting information of the MME target cell;
And transmitting a handover response message including the current setting information to the source cell through the MME when the target cell matches the setting information of the transmitted target cell and the current setting information of the target cell In addition,
The source cell is a macro cell,
Wherein the target cell is a femtocell,
Wherein the setting information of the target cell is a Closed Subscriber Group ID connectable to the femtocell.
delete 11. The method of claim 10,
Wherein the handover response message is a handover permission response message when the target cell operates in a hybrid mode supporting a terminal not registered in the target cell. 11. The method of claim 10,
Wherein the handover response message is a handover rejection response message when the target cell operates in a CSG mode supporting a terminal registered in the target cell. A method for updating setting information of a target cell in a source cell storing identification information of a target cell and setting information of a target cell in a wireless communication system,
Receiving a measurement report including identification information of the target cell from a terminal;
Transmitting a handover request including setting information of the stored target cell to the target cell through a Mobility Management Entity (MME) when the handover is determined according to the received measurement report;
Receiving, by the MME, a handover response message for the handover request transmitted by the target cell;
And updating the setting information of the stored target cell with the setting information of the new target cell if the handover response message includes the setting information of the new target cell,
The source cell is a macro cell,
Wherein the target cell is a femtocell,
Wherein the setting information of the target cell is a Closed Subscriber Group ID connectable to the femtocell.
delete 15. The method of claim 14,
Wherein the response to the handover request is a handover permission response message when the target cell operates in a hybrid mode supporting a terminal not registered in the target cell. 15. The method of claim 14,
Wherein the handover response message is a handover rejection response message when the target cell operates in a CSG mode supporting a terminal registered in the target cell. A method for updating setting information of a target cell in a source cell in which a target cell stores identification information of a target cell and setting information of a target cell in a wireless communication system,
Receiving a handover request including configuration information of the target cell from a Mobility Management Entity (MME)
And transmitting a handover response message including the setting information of the received target cell to the source cell through the MME if the received setting information matches the setting information of the target cell,
The source cell is a macro cell,
Wherein the target cell is a femtocell,
Wherein the setting information of the target cell is a Closed Subscriber Group ID connectable to the femtocell.
delete 19. The method of claim 18,
Wherein the handover response message is a handover permission response message when the target cell operates in a hybrid mode supporting a terminal not registered in the target cell. 19. The method of claim 18,
Wherein the handover response message is a handover rejection response message when the target cell operates in a CSG mode supporting a terminal registered in the target cell.

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