KR101570042B1 - Mobile communication system call control server and method for executing handover thereof - Google Patents

Abstract

In the present invention, when the handover of a terminal is performed, the call control server transmits FA information on a minimum FA having the smallest load among the FAs to the terminal for efficient load balancing between the FAs, To a mobile communication system and a handover performing method.

According to the present invention, the handover success rate can be increased because the terminal can know the FA information about the FA to be handed over in advance, and the terminal can perform the handover to the FA having a small load, thereby eliminating the inconvenience caused by the overload .

Call control server, terminal, handover, FA

Description

TECHNICAL FIELD [0001] The present invention relates to a mobile communication system, a call control server in a mobile communication system, and a method of performing handover in a mobile communication system. [0002] MOBILE COMMUNICATION SYSTEM, CALL CONTROL SERVER AND METHOD FOR EXECUTING HANDOVER THEREOF,

The present invention relates to a mobile communication system and a handover method. More particularly, in order to effectively distribute load between FAs during a handover of a terminal, a call control server transmits FA information on a minimum FA, So that the terminal can receive the communication service smoothly by tuning to the minimum FA, and a handover performing method for the mobile communication system.

Generally, in a mobile communication system, a plurality of FAs (Frequency Assignments) having a specific bandwidth form a transmission band. For example, in the case of a WCDMA (Wideband Code Division Multiple Access) system, 20 MHz is allocated to each communication service provider in Korea, and each communication service provider provides communication services to the terminal using 4 FAs of 5 MHz each. The FA overlays several cells in the same area by radiating radio waves of different frequencies within the same coverage area. By overlaying several cells, the FA accommodates many service subscribers and provides services can do.

A terminal using the mobile communication system directly selects an FA and performs handover. The handover and FA load related parameters are not a problem when handover is performed in the same RNC (Radio Network Controller), but in the case of inter-control-station handover, the hand- Over parameter and load information are not known and the handover success rate is low. Even if the handover is successful, the handover is not performed considering the FA-specific load of the target base station since the terminal does not know the FA-specific load of the target base station. In this case, the target base station is difficult to effectively distribute the load, which causes a load on a specific FA to exceed the limit value, and a call of a specific FA is missed.

In order to solve the above problems, a mobile communication system and a handover performing method capable of notifying a handover related parameter at the time of handover between call control servers, do.

Therefore, it is an object of the present invention to provide a method and apparatus for a mobile communication system in which a call control server transmits FA information on a minimum FA having the smallest load among FAs to a mobile terminal, And to provide a mobile communication system and a handover performing method capable of receiving a communication service.

The mobile communication system according to the present invention is informed that another FA other than the FA providing the communication service from the terminal is detected and determines whether or not the FA is included in the other FA, A first call control server for determining a call control server including the other FA and transmitting a call setup request; and a call control server for receiving the call setup request from the first call control server, And a second call control server for transmitting a call setup response including information to the first call control server.

A call control server in a mobile communication system according to the present invention includes a wired / wireless communication unit for performing wireless communication with a terminal, a database for storing FA information corresponding to the FA included in the mobile communication system, , The FA information included in the FA is referred to in the database to determine whether or not another FA is included in the FA, and if the FA is not included in the FA, And transmits a call setup request for the terminal to the other call control server through the wired / wireless communication unit to set a call including FA information for the other FA from the call control server And if FA is the FA included in the FA, extracts FA information about the FA, With a control unit for transmitting a message including the FA information.

A terminal in a mobile communication system according to the present invention includes a communication interface unit for performing wireless communication with a call control server, a signal sensing unit for measuring a signal strength of an FA for providing a communication service, When a signal corresponding to another FA other than the FA providing the service is detected, the signal intensity of the signal corresponding to the other FA is measured through the signal sensing unit, and if the power level of the signal corresponding to the other FA is lower than the lowest Level value, and when the FA value is equal to or greater than the lowest level value, notifies that the other FA is detected through the communication interface unit and receives FA information about the other FA from the call control server through the communication interface unit And a controller for referring to the FA information and tuning to the other FA.

A method for performing a handover of a first call control server in a mobile communication system according to the present invention includes: a notification step in which a first call control server is informed that an FA other than a FA providing a communication service from a terminal is detected; The first call control server determines whether the other FA is an FA included in the first call control server, and if the other FA is not the FA included in the first call control server, A requesting step of the first call control server transmitting a call setup request of the terminal to the second call control server; A reception step in which the call control server receives a call setup response including FA information for the other FA from the second call control server; and a transmission step in which the first call control server transmits the call setup response to the terminal .

A method for performing a handover of a second call control server in a mobile communication system according to the present invention is characterized in that a second call control server that receives a call setup request from a first call control server Determining a minimum FA with a smallest load; extracting FA information for the minimum FA from the second call control server and including the extracted FA information in a call setup response corresponding to the call setup request; And the server sending the call setup response to the first call control server.

A method for performing a handover of a terminal in a mobile communication system according to the present invention is a method for a terminal to detect a signal corresponding to another FA other than a FA for which communication service is provided, A notification step of notifying the call control server that the FA has been detected when the terminal is at least the stored lowest level value; And a tuning step in which the terminal tunes to the other FA by referring to the FA information.

According to the present invention, in order to effectively distribute the load between the FAs during the handover of the terminal, the call control server transmits the FA information about the minimum FA among the FAs to the terminal, And provides a mobile communication system and a handover performing method capable of receiving a service.

According to the present invention, the handover success rate can be increased because the terminal can know the FA information about the FA to be handed over in advance, and the terminal can perform the handover to the FA having a small load, thereby eliminating the inconvenience caused by the overload .

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 components in the drawings are denoted by the same reference numerals whenever possible. In the following description and drawings, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention unnecessarily obscure.

1 to 5, a WCDMA system will be described in the mobile communication system, and a handover method in the WCDMA system will be described. However, the present invention is not limited to the WCDMA system, and can be applied to any communication system that provides communication service through FA. Such a mobile communication system includes an LTE (Long Term Evolution) system in addition to a WCDMA system.

The call control server according to the present invention means a control station in a WCDMA system and a gateway in an LTE system. Node B in the WCDMA system is e-Node B in the LTE system.

1 is a diagram illustrating a mobile communication system according to an embodiment of the present invention.

1, the mobile communication system according to the present embodiment includes a call control server 20, a node B 40, and a terminal 60. The mobile communication system includes an element management system (EMS) 10, As shown in FIG.

1, the call control servers 20 of the first call control server 21, the second call control server 22 and the third call control server 23 are connected to the EMS 10. First call control server 21 is connected to node B ₁ 41 and node B ₂ 42 and second call control server 22 is connected to node B ₃ 43 and node B ₄ 44 And the third call control server 23 is connected to the node B ₅ (45) and the node B ₆ (46). The node B ₂ 42 is connected to the first terminal 61 and the node B ₅ 45 is connected to the second terminal 62. Each call control server 20 controls at least one Node B 40 connected thereto and each Node B 40 is connected to a plurality of base stations 40 that maintain different frequency bands FA is used, and the FA emits a signal to maintain the frequency band using at least one amplifier.

Each call control server 20 is connected to an MSC (Mobile Switching Center) (not shown), and can store various parameters for all FAs belonging to the call control server 20, that is, FA information. The call control server 20 allocates a FA to the terminal 60 connected through the at least one Node B 40 so that the terminal 60 can receive the communication service. When the terminal 60 in the jurisdiction of the other call control server 20 performs handover such as tuning to the FA in the correspondent asser 20, the call control server 20 sends an FA Information to the terminal 60 so that the terminal 60 can notify the FA to be tuned. The call control server 20 according to another embodiment requests the EMS 10 to send FA information about the FA when the terminal 60 performs the handover by tuning to the FA included in the other call control server 20 .

In the FA information according to the present embodiment, the FA information includes a measurement identity, a primary scrambling code, a common pilot channel (CPICH) Ec / N0, an event result, a cell ID, a transport format set per DCH (Dedicated Channel) Frequency (UL), and UL (Up Link) Scrambling Code.

The EMS 10 stores FA information in correspondence with FAs included in each call control server 20. Further, the EMS 10 receives and stores the changed FA information from the call control server 20 every time the FA information corresponding to the FA is changed.

Although the WCDMA system has been described in the present embodiment, it should be apparent to those skilled in the art that the communication system according to the present invention is not limited to the WCDMA system and can be applied to a communication system capable of providing communication services through FA. Although the terminal 60 is connected to the call control server 20 through the node B 40 in the present embodiment, the terminal 60 and the call control server 20 may be connected directly, (20) may also be implemented in the form of performing the role of the node B (40) together.

2 is a block diagram illustrating a schematic configuration of a call control server in a mobile communication system according to an embodiment of the present invention.

2, the call control server 20 according to the present embodiment includes a wired / wireless communication unit 31, a load side unit 32, a message generation unit 33, a database 34 and a first control unit 35 .

The wired / wireless communication unit 31 performs wired / wireless communication with the other call control server 20, the node B 40, the terminal 60, and the like. The wired / wireless communication unit 31 according to the present embodiment can be notified from the terminal 60 that it has detected another FA and receives a measurement control message. At this time, the measurement control message is a message including the result of measuring the radio environment in the call control server 20, and in this embodiment is a message including FA information about other FAs.

Meanwhile, the wired / wireless communication unit 31 receives a radio link setup request message or a radio link addition request message from the other call control server 20. The wired / wireless communication unit 31 also transmits a Radio Link Setup Response message or a Radio Link Setup Response message, which is a message generated by the call control server 20 under the control of the first control unit 35, Response message to the other call control server 20. The wired / wireless communication unit 31 may also transmit a radio link setup request message or a radio link addition request message to the call control server 20 under the control of the first control unit 35, which will be described later.

The load side portion 32 measures the load amount of all the FAs included in the call control server 20. [ The load side portion 32 may measure the load amount of all the FAs provided by the home server 20 every predetermined period of time in the database 34 to be described later and notify the first control portion 35 of the load amount. Since the load amount of each FA according to this embodiment is included in the FA information, the load side portion 32 can store the load amount for each FA in the database 34 under the control of the first control portion 35 which will be described later.

The message generating unit 33 generates a measurement control message, a radio link setup response message or a radio link addition response message under the control of the first control unit 35, which will be described later. At this time, the message generator 33 generates a measurement control message, a radio link setup response message or a radio link addition response message including the FA information.

Meanwhile, the message generator 33 may generate a radio link setup request message or a radio link addition request message including the FA information about the FA to which the terminal 60 is to synchronize.

The database 34 stores various kinds of information necessary for controlling the operation of the call control server 20. [ The database 34 according to the present embodiment may store various types of FA information for the terminal 60 to perform handover under the control of the control unit 35 described later. Also, the database 34 can update and store FA information every time it is changed.

Meanwhile, the database 34 may not be included in the call control server 20 but may exist separately from the call control server 20. This database, that is, the EMS 10 can store or manage the FA information of each call control server 20 as well as the specific call control server 20 in correspondence with each call control server 20. [ Therefore, when the terminal 60 tunes to the FA included in the other call control server 20 that is not included in the call control server 20, the call control server 20 sends the FA to the FA FA information to the EMS 10.

The first control unit 35 controls the overall operation of the call control server 20. The first control unit 35 determines whether the FA is included in the call control server 20 when the terminal 60 is notified of the detection of another FA. In the case of the included FA, the first controller 35 extracts the FA information for the FA, and transmits the FA information to the terminal 60 by including the FA information in the measurement control message. Accordingly, the terminal 60 can easily recognize the FA information about the FA to be tuned, and can easily increase the handover success rate by performing the handover easily.

The first controller 35 according to the present embodiment is configured to perform a handover when the terminal 60 tuned to the FA included in the other call control server 20 performs handover, FA can be decided. Here, 'minimum FA' refers to the FA having the smallest load measured by the load measuring unit 32. The first control unit 35 refers to the load amount of each FA measured by the load measuring unit 32 to determine the minimum FA having the smallest load.

When the minimum FA is determined, the first controller 35 transmits a message to include the FA information for the minimum FA in the wireless link setup response message or the wireless link addition response message to induce the terminal 60 to perform the handover to the minimum FA And controls the generation unit 33.

3 is a block diagram illustrating a schematic configuration of a terminal in a mobile communication system according to an embodiment of the present invention.

1 to 3, the terminal 60 according to the present embodiment includes a communication interface unit 71, a signal sensing unit 72, a memory 73, and a second control unit 74.

The communication interface unit 71 performs wireless communication with the call control server 20 or the node B40. To this end, the communication interface unit 71 includes an RF (Radio Frequency) transmitter (not shown) for up-converting and amplifying the frequency of a transmitted signal, an RF receiver (not shown) for low- And the like. The communication interface unit 71 according to the present embodiment notifies the call control server 20 that another FA has been detected and receives a measurement control message from the call control server 20. [

The signal sensing unit 72 measures the signal strength of the FA for receiving the communication service. At this time, the signal sensing unit 72 can detect not only the FA of the present terminal 60 but also the signal strength of the FA where the signal is detected, To the second controller (74).

The memory 73 may be constituted by a program memory and a data memory. The memory 73 stores various kinds of information necessary for controlling the operation of the terminal 60. [ The memory 73 according to the present embodiment stores a minimum level value, which is a reference value required for comparing the signal strength of the FA.

The second control unit 74 controls the overall operation of the terminal 60. [ The second control unit 74 according to the present embodiment determines whether the signal intensity of FA measured through the signal sensing unit 72 is equal to or greater than the lowest level value stored in the memory 73. [ The second control unit 74 notifies the call control server 20 via the communication interface unit 71 that another FA other than the FA currently receiving the communication service is detected as the terminal 60. [ This is because when the signal intensity of another FA measured by the signal sensing unit 72 is equal to or higher than the lowest level value, it means that the communication service can be provided through another FA. On the other hand, when the signal strength of the other FA is not equal to or lower than the lowest level value, that is, when the signal intensity is lower than the lowest level value, the second control unit 74 determines to maintain the current FA.

When either the measurement control message, the radio link setup response message, or the radio link addition response message is received from the call control server 20 through the communication interface unit 71, the second control unit 74 analyzes the message, The FA information of the FA to be synchronized with the FA can be acquired. The second control unit 74 refers to the FA information and controls the terminal 60 to tune to the FA.

4 is a flowchart illustrating a method of performing a handover in a mobile communication system according to an embodiment of the present invention.

It is assumed that the terminal 60 is provided with a communication service by any one of the FAs included in the call control server 20. [

Referring to FIG. 4, when the terminal 60 detects a signal of another FA other than the FA receiving the communication service (S82), it determines whether the power level of the other FA is equal to or higher than the lowest level value stored in the memory 73 (S84).

As a result of the determination in step S84, if it is not equal to or higher than the lowest level value (S84: NO), the terminal 60 does not perform any other operation but maintains the current FA.

On the other hand, if it is determined in step S84 that the difference is not less than the minimum level value (S84: YES), the communication interface unit 71 of the terminal 60 notifies the call control server 20 that another FA has been detected (S86). For example, when the terminal 60 detects a P-CPICH (Primary Common Pilot Channel) signal having a predetermined strength or more, the terminal 60 notifies the call control server 20 thereof.

Next, the call control server 20 determines whether the other FA notified in step S86 is the FA included in the call control server 20 (S88). It is determined in step S88 whether or not the FA is included in the FA of the call control server 20 and the FA information of another FA collected by the terminal 60 and the FA information of the FA stored in the database 34 of the call control server 20 FA information. The call control server 20 according to the present embodiment determines whether the FA information included in the other FA detection notification received from the terminal 60 matches the FA information stored in the database 34, It is determined to be an included FA.

If it is determined in step S88 that the other FA is not the FA included in the call control server 20 (S88: NO), the call control server 20 sends a radio link A setting request message is transmitted (S90). This will be described in detail with reference to FIG.

If it is determined in step S88 that the other FA is an FA included in the call control server 20 (S88: YES), the call control server 20 extracts the FA information on another FA and includes it in the measurement control message (S92 ).

Then, the call control server 20 transmits the measurement control message generated as described above to the terminal 60 (S94), and the terminal 60 transmits the measurement control message to the FA 60 using the FA information included in the received measurement control message (S96). At this time, the measurement control message may include an instruction to instruct the other FA to synchronize with the FA, and FA information for another FA may be included so that the terminal 60 can easily synchronize with another FA.

5 is a diagram illustrating a method of performing a handover in a mobile communication system according to another embodiment of the present invention.

First, it is assumed that a call is established by any one of the FAs included in the first call control server 21.

5, when the terminal 60 detects a signal corresponding to another FA included in the second call control server 22 other than the FA included in the first call control server 21 (S102) It is determined whether the power level of the other FA signal is equal to or higher than the lowest level value previously stored in the memory 73 (S104).

As a result of the determination in step S104, if it is not equal to or higher than the lowest level value (S104: NO), the terminal 60 does not perform any other operation but maintains the current FA.

On the other hand, if it is determined in step S104 that the value is equal to or greater than the minimum level value (S104: YES), the communication interface unit 71 of the terminal 60 notifies the first call control server 21 that another FA has been detected (S106).

Next, the first call control server 20 determines whether the other FA notified in step S106 is an FA included in the first call control server 21 (S108).

If it is determined in step S108 that the FA is an FA included in the first call control server 21 (S108: YES), the call control server 21 generates a measurement control message including FA information on another FA (S110). Then, the first call control server 21 transmits a measurement control message to the terminal 60 (S112), and the terminal 60 uses the FA information included in the measurement control message to tune to another FA (S124) .

On the other hand, if it is determined in step S108 that the FA is not the FA included in the first call control server 21 (S108: NO), the first call control server 21 transmits an FA The call control server 20, that is, the second call control server 22 is notified (S114). The first call control server 21 according to the present embodiment transmits the FA information included in the other FA detection notification received from the terminal 60 to the EMS 10 so that the call control server 20 including another FA You can inquire. The EMS 10 finds out the call control server 20 including the other FA, that is, the second call control server 22 by comparing the FA information corresponding to each FA stored previously with another FA detection notification, The server 21 can be notified.

Next, the first call control server 21 transmits a radio link setup request message to the second call control server 22, which is another call control server 20 including another FA (S116). For example, when the first call control server 21 receives the other FA detection notification, the second call control server 22 transmits a radio link establishment request to the FA when radio resource allocation for the terminal 60 is possible, Or requests the Node B 40 managed by the second call control server 22 to allocate radio resources. The Node B 40 included in the second call control server 22 which has received the radio link setup request sets the radio resource requested by the terminal 60 and starts uplink reception.

Next, the second call control server 22 receiving the radio link setup request message determines the lowest FA, which is the FA having the smallest load among the FAs included in the second call control server 22 (S118). Then, the second call control server 22 generates the radio link setup response message including the FA information for the lowest FA (S120). At this time, the radio link setup response message indicates that the radio resource setting from the node B 40 included in the second call control server 22 to the terminal 60 is successful for the radio link setup request of the first call control server 21 And the second call control server 22 sends a response message to the terminal 60 via the first call control server 21.

The wireless link setup response message is transmitted to the terminal 60 via the first call control server 21 (S122). Upon receiving the radio link setup response message, the terminal 60 tunes to another FA (S124). The second call control server 22 transmits a downlink synchronization message to the terminal 60 for synchronization between the other FA and the terminal 60. [ The second call control server 22 uses the downlink channel (DCH) frame protocol to transmit the reference time of the second call control server 22 to the terminal 60 or the terminal < RTI ID = 0.0 > To the node B (40) including the node (60).

At this time, the radio link setup response message may include an instruction to synchronize with another FA, and FA information about another FA may be included so that the terminal 60 can easily synchronize with another FA.

When the radio resource allocation from the Node B 40 to the terminal 60 is completed in the second call control server 22, the second call control server 22 transmits an Active Set Update message to the terminal 60 Thereby informing that the setting of the new wireless link is completed. When the terminal receives this Active Set Update message, it can add the corresponding radio link.

Meanwhile, although only the case of transmitting / receiving a radio link setup request message and a radio link setup response message is described in the present embodiment, the above-described steps may also be applied to the case of transmitting / receiving a radio link addition request message and a radio link addition response message . Also, while performing the handover performing method according to the present invention, the message transmitted and received by the call control server 20, i.e., the call control server and the terminal 60 may vary according to the communication method, Quot; FA information " is the same.

As described above, preferred embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms have been used, they have been used only in a general sense to easily describe the technical contents of the present invention and to facilitate understanding of the invention , And are not intended to limit the scope of the present invention. It is to be understood by those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

The mobile communication system and the handover performing method according to the present invention are characterized in that the call control server informs an FA having a relatively small load among the FAs included in the call control server as a terminal so that the terminal can smoothly receive the communication service through the FA So that it is possible to increase the convenience of the users who are provided with the communication service by using the terminal and effectively control the load between the FAs so that it is possible to accommodate more subscribers within the limited FAs, .

1 is a block diagram illustrating a mobile communication system according to an embodiment of the present invention.

2 is a block diagram showing a schematic configuration of a call control server in a mobile communication system according to an embodiment of the present invention;

3 is a block diagram illustrating a schematic configuration of a terminal in a mobile communication system according to an embodiment of the present invention.

4 is a flowchart illustrating a handover performing method in a mobile communication system according to an embodiment of the present invention, and

5 is a diagram illustrating a method of performing a handover in a mobile communication system according to another embodiment of the present invention.

Description of the Related Art [0002]

20: call control server 31: wired / wireless communication section

32: load measuring unit 33: message generating unit

34: Database 35:

60: terminal 71: communication interface unit

72: signal detection unit 73: memory

74:

Claims (15)

When it is notified that another FA other than the FA providing communication service is detected from the terminal, it is determined whether or not the other FA is included in the FA. If it is determined that the FA is not included in the other FA, A first call control server for confirming a second call control server which is a Tahoe control server including another FA and transmitting a request for establishing a radio link to the second call control server, Upon receipt of the radio link establishment request from the first call control server, a minimum FA, which is the FA having the smallest load among the FAs included in the second call control server, is determined, and the information on the minimum FA and the minimum FA are synchronized And a second call control server for transmitting a radio link setup response including an instruction for instructing the first call control server to the terminal through the first call control server. A wired / wireless communication unit for transmitting and receiving information to and from the terminal and one or more other call control servers, A database for storing FA information corresponding to the FA included in the call control server, When a wireless link setup request is received from any one of the other call control servers through the wired / wireless communication unit, a minimum FA, which is an FA having the smallest load among the FAs included in the database, is determined, And a controller for transmitting a radio link setup response including a command for instructing tuning to the call control server through the wired / wireless communication unit to the terminal through the other call control server. 3. The method of claim 2, The control unit If it is notified through the wired / wireless communication unit that another FA other than the FA providing the communication service is notified from the terminal, it is determined whether the other FA is an FA included in the database, If the FA is not included in the FA, confirms the other control server including the other FA, transmits a radio link setup request for the terminal to the other control server confirmed through the wired / wireless communication unit, And transmits a wireless link setup response including the FA information for the minimum FA and the instruction to instruct the minimum FA to be tuned to the FA from the wired / wireless communication unit and transmits the wireless link setup response to the terminal. The method of claim 3, The control unit If FA is included in the database, extracts FA information about the FA from the database and transmits a message including the extracted FA information to the terminal. Call control server in the system. The first call control server is notified from the terminal that another FA other than the FA providing the communication service is detected; The first call control server determining whether the other FA is an FA included in the first call control server, If it is determined that the FA is not included in the FA, the first call control server checks the second call control server, which is a Tahoe control server including the other FA, Transmitting a radio link establishment request of the terminal to the second call control server, which the first call control server has confirmed; Determining a minimum FA, which is an FA having the smallest load among the FAs included in the second call control server, when the second call control server receives the radio link setup request from the first call control server; And sending a radio link setup response to the terminal via the first call control server, the second call control server including a command for instructing to tune to the minimum FA and information on the minimum FA. Wherein the handover is performed in the mobile communication system. delete delete 6. The method of claim 5, If FA is included in the FA, the first call control server extracts FA information for the other FA; The first call control server generating a Measure Control Message including the FA information, Wherein the first call control server transmits the measurement control message to the mobile station. 6. The method of claim 5, The step of verifying the second call control server The first call control server requests information about a second call control server, which is a Tahoe control server including the other FA, to an element management system; And the first call control server receiving FA information for the second call control server from the equipment management system to confirm that the other FA is a FA included in the second call control server A method for performing a handover in a mobile communication system. 6. The method of claim 5, The notification of the detection of the other FA Wherein the notification is generated when the terminal senses a signal corresponding to another FA other than the FA for which the communication service is provided and the power level of the sensed signal is equal to or greater than a predetermined minimum level value. How to perform over. Determining a minimum FA having the smallest load among the FAs included in the second call control server which has received the request for setting up the radio link from the first call control server; The second call control server extracts the FA information for the minimum FA and includes an instruction to instruct the extracted FA information and the minimum FA to be tuned in a radio link setup response corresponding to the radio link setup request , And the second call control server transmits the radio link setup response to the first call control server. delete delete delete delete

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