KR20090095060A - Method and apparatus for Radio Resource Control connection setup in mobile communication system - Google Patents

Abstract

An RRC connection setting method and an apparatus thereof in a mobile communication system capable of RRC connection setup are provided to improve RRC connection success rate when handover by transmitting RRC connection response. A synchronization information generator(223) produces the synchronization information of one or more neighboring base center and home base station. A message generator(224) produces radio resource control connection setting requests including the synchronization information and channel information. A controller(222) detects one or more neighboring base center according to the radio resource control connection request of the mobile communication terminal. The controller transmits radio resource control connection setting requests to the home base station and one or more neighboring base center.

Description

Method and apparatus for radio resource control connection setup in mobile communication system

The present invention relates to a radio resource control (RRC) connection establishment method and apparatus therefor in a mobile communication system, and more particularly, to a radio resource control connection establishment method for handover in an asynchronous mobile communication system and To the device.

In recent years, with the development of mobile communication technology, various functions such as Internet access, games, message transmission, email transmission, and financial transactions can be used using mobile communication terminals.

In particular, in the asynchronous mobile communication system, a third generation mobile communication technology represented by a wideband code division multiple access (WCDMA) system is commercially available. Such a WCDMA system can provide a large amount of packet data along with circuit data at a high data rate.

In addition, the WCDMA system supports handover between base stations to maintain communication without disconnection of a call when the mobile communication terminal moves from one cell to another to ensure subscriber mobility.

Conventionally, when performing the handover between base stations, the mobile communication terminal performs handover after performing radio resource control (RRC) connection setup for radio resource allocation in the process of initial access to the base station. In this case, the mobile communication terminal does not receive an RRC connection setup response from the home base station when the mobile station moves to coverage of another base station after making an RRC connection request to a base station (hereinafter, referred to as a 'home base station'). In this case, the mobile communication terminal performs a cell reselection procedure of re-searching the neighboring base station to perform handover again after a predetermined time after transmitting the RRC connection request to the home base station. Then, the mobile terminal makes an RRC connection request to the base station to be handed over and receives a response thereto.

As such, when the mobile communication terminal moves to coverage of another base station while requesting RRC connection establishment from the home base station, a call drop may occur because the mobile communication terminal does not receive an RRC connection establishment response from the home base station. In particular, in a multi-cell overlapped environment, the RRC connection establishment success rate deteriorates due to frequent cell reselection procedures of the mobile communication terminal, resulting in a long call setup time.

Accordingly, an aspect of the present invention is to provide a method and apparatus for establishing an RRC connection that can succeed in establishing an RRC connection even when the mobile communication terminal moves to coverage of a neighboring base station while requesting an RRC connection setting to a home base station. .

In order to achieve the above-described problem, a method for establishing a radio resource control connection with a mobile communication terminal in a mobile communication system according to an aspect of the present invention includes receiving a radio resource control connection request of the mobile communication terminal through a home base station. And transmitting a radio resource control connection establishment request for each base station to at least one neighboring base station detected using the home base station and the radio resource control connection request.

In addition, in the mobile communication system according to another aspect of the present invention, an apparatus for establishing a radio resource control connection with a mobile communication terminal includes synchronization information for each base station of a home base station to which the mobile communication terminal is currently connected and at least one neighboring base station. A synchronization information generation unit for calculating a; a message generation unit for generating a radio resource control connection establishment request for each base station, each of which includes synchronization information for each base station and channel information for radio resource allocation; and the mobile communication received through the home base station And a controller configured to detect the at least one neighboring base station according to a radio resource control connection request of a terminal, and to transmit the radio resource control connection establishment request for each base station to the home base station and the at least one neighboring base station, respectively.

According to the exemplary embodiment of the present invention, the RRC connection establishment success rate can be increased during handover of the mobile communication terminal by transmitting the RRC connection establishment response to the neighbor base stations together with the home base station receiving the RRC connection request. .

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

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

In addition, the terms “… unit”, “… unit”, “module”, etc. described in the specification mean a unit that processes at least one function or operation, which may be implemented by hardware or software or a combination of hardware and software. have.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a simplified block diagram of a mobile communication system for performing RRC connection setup according to an embodiment of the present invention.

As shown in FIG. 1, a mobile communication system to which an RRC connection configuration is applied according to an embodiment of the present invention includes a mobile communication terminal 100, a radio access network 200, and a core network 300. Include. 1 illustrates a WCDMA system as an asynchronous mobile communication system to which an embodiment of the present invention is applied.

The mobile communication terminal 100 transmits and receives data for a mobile communication service by accessing the core network 300 through the wireless access network 200. The mobile terminal 100 performs an RRC connection setup process for allocating radio resources at the initial connection with the radio access network 200 for circuit or packet call connection. At this time, the mobile communication terminal 100 transmits a radio resource measurement value to the radio access network 200, the base station to which the mobile communication terminal 100 is currently connected to the radio resource measurement value (hereinafter referred to as 'home base station') Radio resource information such as signal strength and signal strength of an adjacent base station.

The radio access network 200 manages radio resources for supporting and controlling radio access of the mobile communication terminal 100. At this time, the wireless access network 200 is composed of a plurality of Radio Network Sub-system (RNS) according to the cell environment, in Figure 1 one wireless network sub-system 210 included in the wireless access network 200 ).

The wireless network subsystem 210 includes a plurality of Radio Network Controllers (RNCs), each of which controls a plurality of Node-Bs. 1 illustrates one wireless network controller 211 included in the wireless network subsystem 210, and the wireless network controller 211 uses a plurality of base stations (node-Bs) 212, 213, and 214. Control was shown.

The radio network controller 211 is responsible for radio resource allocation and management and serves as an access point between the plurality of base stations 212, 213, and 214 and the core network 300. In addition, the plurality of base stations 212, 213, and 214 receive information transmitted from the physical layer of the mobile communication terminal 100 in the uplink (UL) and mobile communication in the downlink (DL). By transmitting data to the terminal 100 serves as an access point between the mobile communication terminal 100 and the wireless network controller 211. Although FIG. 1 shows that the wireless network controller 211 controls three base stations 212, 213, and 214, it is natural that more or less base stations can be controlled depending on the cell environment.

Meanwhile, the wireless network controller 211 according to an embodiment of the present invention receives an RRC connection request from the mobile communication terminal 100 connected through the base station 212 and then RRCs to at least one base station including the base station 212. Send a connection establishment response. At this time, the base station 212 is a home base station that receives the RRC connection request from the currently connected mobile communication terminal 100, and the remaining base stations 213 and 214 move after the mobile communication terminal 100 transmits the RRC connection request. A base station 212 is referred to as a base station A 212, and the base station 213 and the base station 214 are respectively referred to as base stations B 213 for convenience of explanation. And base station C 214.

In detail, the radio network controller 211 receives an RRC connection request from the mobile communication terminal 100 through the base station A 212 and references the radio resource measurement value included in the RRC connection request. The radio resource information of the base station B 213 and the base station C 214 is obtained. At this time, the radio resource information includes the signal strength of each base station measured by the mobile communication terminal 100.

The wireless network controller 211 detects at least one base station having a signal strength of a predetermined signal strength or more according to the obtained radio resource information, and transmits an RRC connection establishment response to the home base station and the detected at least one base stations.

Thereafter, the wireless network controller 211 performs RRC connection establishment by receiving an RRC connection establishment complete response of the mobile communication terminal 100 through any one of a plurality of base stations that have received the RRC connection establishment response. At this time, the radio network controller 211 transmits an RRC connection establishment complete response including base station synchronization information capable of synchronizing with the mobile communication terminal 100 to each base station.

For example, the mobile communication terminal 100 may move out of the coverage of the base station A 212 to the coverage of the base station B 213 while transmitting the RRC connection request to the base station A 212. In this case, since the mobile communication terminal 100 needs to establish an RRC connection with the base station before performing the handover procedure, the mobile communication terminal 100 is transmitted from the wireless network controller 211 in the coverage of the base station B 213. It must be able to receive an RRC connection establishment response.

That is, as in the embodiment of the present invention, the mobile communication terminal 100 transmits an RRC connection establishment response to the base station A 212, the base station B 213, and the base station C 214, respectively. The RRC connection establishment response may be received through the base station of the moved cell.

As described above, a method and an apparatus for performing RRC connection establishment with the mobile communication terminal 100 by transmitting the RRC connection establishment response for each base station to a plurality of base stations are described with reference to FIGS. 2 to 4 below. This will be explained in detail.

The core network 300 transmits and receives voice or packet data to provide a circuit or packet exchange service to the mobile communication terminal 100. The core network 300 includes a mobile switching center (MSC) 310 for supporting a circuit switching service to the mobile communication terminal 100 and a gateway mobile switching center (GMSC) for communication with an external network ( 320). In addition, the core network 300 is a packet gateway support node (GGSN) that connects a packet switching support node (SGSN) 330 for supporting a packet switching service and another packet switching network such as an Internet network. Node) 340 and the like. At this time, in Figure 1 for convenience of description, a detailed description of the configuration and operation of the core network 300 for providing a general mobile communication service will be omitted.

2 is a configuration diagram of an RRC connection establishment apparatus according to an embodiment of the present invention.

3 is a frame timing diagram illustrating a process of performing a node synchronization procedure according to an embodiment of the present invention.

In this case, Figure 2 shows that the RRC connection establishment apparatus according to an embodiment of the present invention is included in the radio network controller 211.

First, the RRC connection establishment apparatus 220 includes a transceiver 221, a controller 222, a synchronization information generator 223, a message generator 224, and a database 225.

The transceiver 221 transmits the RRC connection request message of the mobile communication terminal 100 received from the home base station to the controller 222. The transceiver 221 transmits an RRC connection establishment message for each base station to each base station under the control of the controller 222. In this case, the received RRC connection request message includes radio resource measurement values for the home base station and the neighbor base station to which the mobile communication terminal 100 is currently connected. In addition, the transceiver 221 transmits an RRC connection setup message for each base station to each matching base station.

The controller 222 controls each unit of the RRC connection establishment apparatus 220 to generate and transmit an RRC connection establishment response message for each base station in response to the RRC connection request of the mobile communication terminal 100.

In detail, the controller 222 obtains a radio resource measurement value from the RRC connection request message, detects a neighbor base station to which the RRC connection establishment message is to be transmitted, and generates a neighbor list. At this time, the controller 222 compares each signal strength value of the neighboring base stations included in the radio resource measurement value with a predetermined reference signal strength value, respectively, to generate neighboring base stations having a signal strength equal to or greater than the reference signal strength value as a neighbor list. . That is, the neighbor base station generated as the neighbor list is a neighbor base station whose signal strength value is greater than or equal to the reference signal strength value among the plurality of neighbor base stations monitored by the mobile communication terminal 100.

In this case, when the signal strengths of the monitored neighbor base stations are all less than the reference signal strength value, there may be no neighbor base stations included in the neighbor list. In this case, the controller 222 controls the RRC connection establishment message to be transmitted only to the home base station because there is no neighbor base station included in the neighbor list.

The controller 222 requests the synchronization information generator 223 to generate synchronization information of each base station. At this time, the synchronization information generation request includes base station information and home base station information included in the neighbor list.

In addition, the controller 222 establishes a radio link with each base station, that is, a home base station and a neighbor base station included in a neighbor list, before the RRC connection establishment message is transmitted to each base station. At this time, in the embodiment of the present invention, it is shown that the control unit 222 transmits a radio link establishment message for establishing a radio link with each base station and receives a radio link establishment response message of each base station. On the other hand, it is obvious that the radio resource control connection setting device 220 may further include a radio link setting unit (not shown) for establishing a radio link with each base station.

The synchronization information generation unit 223 generates synchronization information for each base station by using the information of the base station included in the home base station and the neighbor list, and delivers the synchronization information to the message generation unit 224. At this time, the synchronization information for each base station includes information of DOFF (Default Dedicated Physical Channel Offset Value) of each base station. The DOFF information includes frame offset values and chip offset values of each base station.

In detail, the synchronization information generator 223 performs a node synchronization procedure of transmitting an uplink node synchronization control frame to each base station and receiving a downlink node synchronization control frame from each base station to generate synchronization information of each base station. In this case, the synchronization information generator 223 calculates node-B frame number (BFN) information of each base station by using time information included in an uplink / downlink node synchronization control frame.

As such, the synchronization information generation unit 223, which acquires BFN information of each base station through a node synchronization procedure, calculates a frame offset value (hereinafter, referred to as 'T_cell') between BFN information of each base station and SFN (System Frame Number) for each cell. SFN information for each cell is calculated. In this case, the synchronization information generator 223 may calculate SFN for each cell using T_cell information of each base station pre-stored in the database 225. In this case, BFN and SFN of each base station means a counter value used for synchronization by the base station and may be referred to as a frame number (FN) of the base station.

As described above, the process of performing the node synchronization procedure by the synchronization information generator 223 will be described with reference to FIG. 3.

For example, when performing a node synchronization procedure of the home base station, as shown in FIG. 3, the synchronization information generator 223 first uses an RNC frame number (RFN) value used in the radio network controller 211 (in FIG. Transmits a downlink node synchronization control frame (denoted as 'T1') to the home base station. Then, the home base station indicates the BFN value (referred to as 'T2' in FIG. 3) at the time when the downlink node sync control frame is received and the BFN value (indicated as 'T3' in FIG. 3) at the time of transmitting the uplink node sync control frame. And transmits an uplink node synchronization control frame including a) to the radio network controller 211. Then, the synchronization information generation unit 223 uses the RFN value (indicated by 'T4' in FIG. 3) and T1, T2, and T3 information at the time when the uplink synchronization control frame is received by the radio network controller 211. Calculate BFN information of the base station.

That is, the synchronization information generator 223 calculates the difference between T2 and T3 to calculate the response delay frame value F2 of the home base station, and calculates the calculated response delay frame value from the frame value F1 which is the difference between T4 and T1. The round trip delay (RTD) is calculated, and the synchronization information generator 223 may obtain the BFN information by calculating the one-way delay value by dividing the round trip delay value by two.

The synchronization information generator 223 performing the node synchronization procedure calculates SFN information for each cell of the home base station by adding T_cell value for each cell to BFN information of the home base station. The synchronization information generator 223 calculates DOFF information by using the cell-specific SFN information and the connection frame number (CFN) information of the home base station.

In addition, the synchronization information generator 223 may calculate BFN information and SFN information for each cell included in the neighbor list through a procedure such as a node synchronization procedure of the home base station. The synchronization information generator 223 calculates DOFF information of the base station included in the neighbor list to generate the synchronization information.

The message generator 224 acquires synchronization information of each base station from the synchronization information generator 223 and generates an RRC connection establishment message for each base station to be transmitted to neighboring base stations and home base stations included in the neighbor list. At this time, the RRC connection establishment message for each base station includes synchronization information of each base station and each channel information for radio resource allocation of the mobile communication terminal 100.

The database 225 stores T_cell information for each cell of a plurality of base stations managed by the radio network controller 211.

4 is a data flowchart for explaining a method of establishing an RRC connection according to an embodiment of the present invention.

In this case, in FIG. 4, the RRC connection establishment apparatus 220 is included in the radio network controller 211. Therefore, the RRC connection establishment procedure is represented as being performed by the radio network controller 211.

In FIG. 4, the base station A 212 of the plurality of base stations 212, 213, and 214 shown in FIG. 1 is shown as a home base station to which the mobile communication terminal 100 initially connects. It is shown that C 214 is a base station included in the neighbor list. In this case, the number of base stations that the mobile communication terminal 100 can measure radio resource information may vary according to cell characteristics, and the number of base stations included in the neighbor list may also change according to signal strength of each base station. Of course.

First, the mobile communication terminal 100 initially accessing the wireless access network 200 transmits an RRC connection request message to the wireless network controller 211 through the base station A 212 (S400). At this time, the mobile communication terminal 100 transmits an RRC connection request message including a radio resource measurement value. The radio resource measurement value includes radio resource information including signal strengths of the home base station and the neighbor base station.

Then, the radio network controller 211 generates a neighbor list for transmitting the RRC connection establishment response message among neighboring base stations by using the radio resource measurement value included in the RRC connection request message (S410).

Specifically, the radio network controller 211 receiving the RRC connection request message obtains radio resource information of the home base station and the monitored neighbor base station among the radio resource measurement values included in the RRC connection request message. At this time, the radio network controller 211 generates a neighbor list of neighboring base stations whose signal strength value included in the radio resource measurement value is greater than or equal to a predetermined reference signal strength value. In FIG. 4, base station B 213 and base station C 214 are shown as neighboring base stations.

Thereafter, the wireless network controller 211 generates synchronization information of neighbor base stations included in the home base station and the neighbor list (S420). At this time, the radio network controller 211 performs node synchronization procedures for the base station A 212, the base station B 213, and the base station C 214, respectively, to calculate the BFN information of each base station, and calculates the SFN for each base station. The wireless network controller 211 generates synchronization information by calculating DOFF information using the calculated SFN information and CFN information of each base station.

Then, the wireless network controller 211 transmits a radio link establishment message to the base stations included in the home base station and the neighbor list (S430). That is, the radio network controller 211 transmits each radio link establishment message to the base station A 212, the base station B 213, and the base station C 214.

Then, each base station receiving the radio link establishment message transmits a radio link establishment response message to the radio network controller 211 (S440). In this case, in FIG. 4, each process of transmitting a radio link establishment response message from the base station A 212, the base station B 213, and the base station C 214 to the wireless network controller 211 is represented by step S440.

As described above, when a wireless link is established between the wireless network controller 211 and each of the base stations by performing steps S430 and S440, the wireless network controller 211 transmits an RRC connection establishment message for each base station to a neighbor base station included in the home base station and the neighbor list. Transmit (S450).

That is, as shown in FIG. 4, the wireless network controller 211 transmits corresponding RRC connection setup messages to the base station A 212 that is the home base station, the base station B 213, and the base station C 214 that are included in the neighbor list. do. As such, the RRC connection establishment message transmitted to each base station includes synchronization information matched with each base station and control channel information. The synchronization information may be later used to synchronize the mobile communication terminal 100 with the base station. Each control channel information includes uplink / downlink dedicated channel information and physical channel information on which actual data is loaded.

Then, the mobile communication terminal 100 receives the RRC connection setup message through the base station B (213) of the plurality of base stations (S460). That is, in FIG. 4, the mobile communication terminal 100 transmits an RRC connection establishment message to the radio network controller 211 through the base station A 212, which is a home base station, and moves to the coverage of the base station B 213 in the neighbor list. Is shown as an example. At this time, the mobile communication terminal 100 receives the RRC connection setup message including the synchronization information corresponding to the base station B (213).

Then, the mobile communication terminal 100 transmits an RRC connection establishment complete message for the received RRC connection establishment message to the radio network controller 211 through the base station B (213) (S470). At this time, the mobile communication terminal 100 transmits an RRC connection setup complete message after performing resource reservation and synchronization for each layer by using synchronization information and control channel information included in the RRC connection setup message.

By performing steps S400 to S470 as described above, connection setting of the RRC layer is completed between the mobile communication terminal 100 and the wireless network controller 211. That is, the wireless network controller 211 also transmits an RRC connection establishment message for each base station to neighboring base stations including the home base station so that the mobile communication terminal 100 makes an RRC connection request through the home base station and then moves to coverage of another base station. In this case, the RRC connection establishment message can be received. In this manner, the RRC connection establishment message reception rate of the mobile communication terminal 100 can be improved in the process of performing the handover of the mobile communication terminal 100.

In addition, after step S470, the radio network controller 211 transmits an RRC connection establishment termination message to the base station A 212 that delivered the initial RRC connection request message (S480). That is, the radio network controller 211 ends the RRC connection setup between the mobile communication terminal 100 and the base station A 212 to match the base station management information.

Meanwhile, FIG. 4 shows that the mobile communication terminal 100 transmits an RRC connection setup complete message to the base station B 213 after receiving the RRC connection setup message through the base station B 213. However, after the mobile communication terminal 100 receives the RRC connection establishment message through the base station A 212, the mobile communication terminal 100 may move to the coverage of the base station B 213 and transmit the RRC connection establishment complete message.

In this case, although not shown in FIG. 4 for convenience of description, in the method of establishing an RRC connection according to an embodiment of the present invention, in step S440, a radio link between each base station (a neighboring base station included in a home base station and a neighbor list) and a wireless network controller 211 is established. After the establishment, a radio link between each base station and the mobile communication terminal 100 is established. At this time, the wireless network controller 211 is a preset power value of the uplink dedicated control channel (DPCCH) of the mobile communication terminal 100 received through each base station (i.e., the home base station and the neighboring base station included in the neighbor list). The base station having a reference power value or more determines that the wireless link is normally established with the mobile communication terminal 100. That is, after the mobile communication terminal 100 receives the RRC connection establishment message through the base station A 212 in step S460 and before performing step S470, the power value of each base station (the DPCCH received from the mobile communication terminal is based on the reference value). A wireless link is established between at least one base station determined to be equal to or greater than a power value and the mobile communication terminal 100.

Therefore, when the mobile communication terminal 100 moves to coverage of the base station B 213 after receiving the RRC connection establishment message through the base station A 212 in step S460 as described above, the mobile communication terminal 100 before step S470. ) And an uplink synchronization procedure of the mobile communication terminal 100 is performed through a wireless link established between the base station B and the base station B 213. In step S470, the mobile communication terminal 100 transmits an RRC connection setup complete message through the wireless link established with the moved base station B 213. In this way, even when the mobile communication terminal 100 receives an RRC connection establishment message through the home base station and performs a handover to the coverage of the adjacent base station, the wireless link established between the mobile communication terminal 100 and the adjacent base station is established. By performing the uplink synchronization by using this can prevent the initial radio link setup failure.

In addition, the embodiment of the present invention shows that the base station B 213 and the base station C 214 are included as neighboring base stations included in the neighbor list. However, when there are no neighbor base stations to be included in the neighbor list, that is, when the signal strengths of the plurality of neighbor base stations other than the home base station are all less than the reference signal strength, there may be no neighbor base stations to be included in the neighbor list.

In this case, the wireless network controller 211 may generate synchronization information of only the home base station and transmit an RRC connection setup message only to the home base station in step S420. That is, the mobile communication terminal 100 requests the RRC connection establishment within the coverage of the home base station and receives the RRC connection establishment response through the home base station.

Therefore, in this case, the wireless network controller 211 transmits an RRC connection establishment message to the base station A 212 in step S450, and then receives an RRC connection establishment complete message of the mobile communication terminal through the base station A 212 in step S470. Done. That is, the wireless network controller 211 does not perform step S480, and the RRC connection setting is completed between the mobile communication terminal 100 and the wireless network controller 211.

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

1 is a simplified block diagram of a mobile communication system for performing RRC connection setup according to an embodiment of the present invention.

2 is a configuration diagram of an RRC connection establishment apparatus according to an embodiment of the present invention.

3 is a frame timing diagram illustrating a process of performing a node synchronization procedure according to an embodiment of the present invention.

4 is a data flowchart for explaining a method of establishing an RRC connection according to an embodiment of the present invention.

Claims (12)

In the method of establishing a radio resource control connection with a mobile communication terminal in a mobile communication system, Receiving a radio resource control connection request of the mobile communication terminal through a home base station; And Transmitting a radio resource control connection establishment request for each base station to at least one neighboring base station detected using the home base station and the radio resource control connection request; Radio resource control connection establishment method comprising a. The method of claim 1, The step of transmitting a radio resource control connection establishment request for each base station, Detecting at least one neighboring base station to transmit a radio resource control connection establishment response in addition to the home base station; Calculating base station synchronization information of the home base station and the detected at least one neighboring base station; And Transmitting a request for establishing a radio resource control connection for each base station including synchronization information for each base station to the home base station and the detected at least one neighboring base station. Radio resource control connection establishment method comprising a. The method of claim 2, Before transmitting the radio resource control connection establishment request for each base station including the synchronization information for each base station, Establishing a wireless link with the home base station and the at least one neighboring base station How to set up a radio resource control connection. The method of claim 2, The at least one neighbor base station, Detecting by using a radio resource measurement value included in the radio resource control connection request Radio resource control connection setting method, characterized in that. The method of claim 2, The synchronization information for each base station is, Each frame number information and Default Dedicated Physical Channel Offset Value (DOFF) information of the home base station and the at least one neighboring base station are included. How to establish a radio resource control connection. The method according to claim 1 or 2, After transmitting the radio resource control connection establishment request for each base station, Receiving a radio resource control connection establishment complete response of the mobile communication terminal through any one of the detected at least one neighboring base station; And Transmitting a request to terminate radio resource control connection establishment with the mobile communication terminal to the home base station; Radio resource control connection establishment method comprising a. The method of claim 1, If the at least one neighbor base station is not detected, Transmitting a request for establishing a radio resource control connection including synchronization information of the home base station to the home base station; And Receiving a radio resource control connection establishment complete response of the mobile communication terminal through the home base station; How to set up a radio resource control connection. An apparatus for performing radio resource control connection establishment with a mobile communication terminal in a mobile communication system, A synchronization information generation unit for calculating synchronization information for each base station of a home base station to which the mobile communication terminal is currently connected and at least one neighboring base station; A message generator for generating a radio resource control connection establishment request for each base station including the synchronization information for each base station and channel information for radio resource allocation; And The at least one neighboring base station is detected according to a radio resource control connection request of the mobile communication terminal received through the home base station, and a request for establishing a radio resource control connection for each base station is made to the home base station and the at least one neighboring base station. Control unit to transmit each Radio resource control connection setting apparatus comprising a. The method of claim 8, The control unit, Obtaining signal strength values of the home base station and the monitored neighboring base station from the radio resource measurement value included in the radio resource control connection request; Detecting the at least one neighboring base station whose acquired signal strength value is equal to or greater than a predetermined reference signal strength value; Radio resource control connection establishment device. The method of claim 8, The control unit, A radio link is established with each of the home base station and the at least one neighboring base station to transmit a radio resource control connection establishment request for each base station. Radio resource control connection establishment device. The method according to claim 8 or 9, The control unit, When a radio resource control connection establishment complete response of the mobile communication terminal is received through any one of the detected at least one neighboring base station, to transmit a radio resource control connection establishment termination request to the home base station. Radio resource control connection establishment device. The method of claim 11, The synchronization information generator, Obtaining frame number information for each base station of the home base station and the at least one neighboring base station, Generating synchronization information for each base station including frame number information for each base station and Default Dedicated Physical Channel Offset Value (DOFF) information. Radio resource control connection establishment device.

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