KR101265608B1 - Method for controlling User Equipment's carrier frequency and Apparatus for implementing the same - Google Patents

Abstract

A method for resetting a carrier frequency of a corresponding terminal so that a user terminal having an extended spectrum band capacity can easily perform neighbor cell measurement for coping with handover, and an apparatus for implementing the same Is provided. The carrier frequency resetting method includes the steps of receiving, by a user terminal, carrier frequency information from a base station (Node-B), and resetting a carrier frequency currently set according to the received carrier frequency information. The frequency information may be broadcast to an unspecified user terminal, or may be transmitted by designating a specific user terminal. According to the present invention, by resetting the carrier frequency of the terminal so that the user terminal having an extended spectrum band capacity can operate simultaneously in the spectral band of the camping cell and the adjacent cell, the frequency between the frequency to cope with the handover (inter-frequency) measurements can be minimized.

hand over, inter-frequency, intra-frequency, carrier frequency

Description

Method for controlling carrier frequency of user terminal and apparatus for implementing same {Method for controlling User Equipment's carrier frequency and Apparatus for implementing the same}

1A and 1B are conceptual views illustrating a process of measuring a frequency of an adjacent cell for handover by a conventional WCDMA terminal having limited spectrum band capacity.

2A to 2H are conceptual views illustrating a process of measuring a frequency of a neighbor cell for each embodiment in a communication environment according to the LTE standard.

3 is a conceptual diagram illustrating a process in which intra-frequency measurements are performed instead of inter-frequency measurements by the carrier frequency resetting method of the present invention.

4 is a flowchart sequentially illustrating a carrier frequency resetting process of FIG. 3.

5A to 5H are conceptual views illustrating a process of measuring a frequency of an adjacent cell for each embodiment corresponding to FIGS. 2A to 2H in a state in which a carrier frequency is reset according to the present invention.

6 is an internal configuration diagram of a user terminal implementing the carrier frequency resetting method of the present invention.

The present invention provides a method for resetting a carrier frequency of a corresponding terminal so that a user terminal having an extended spectrum band capacity can easily perform neighbor cell measurement during handover, and an apparatus for implementing the same. It is about.

The WCDMA standard of the 3rd Generation Partnership Project (3GPP) assumes that the spectrum band capacity of a user equipment (UE) and the spectral bands of a camping cell and a neighbor cell are the same at 5 MHz. Here, the camping cell is also referred to as a serving cell or a current cell, and refers to a cell in which the user terminal is camped on.

In the 3GPP WCDMA environment, when a user terminal is powered on, when information about a previous cell is stored in a user subscriber identification module (USIM), camping on the carrier frequency of the previous cell is performed first ( Camping On), and if such an attempt fails or the carrier frequency of the previous cell is not stored in the USIM, camping on all accessible carrier frequencies is attempted. A user terminal that has successfully camped on receives carrier frequency information of neighboring cells from a camping cell through a broadcasting control channel.

In such a situation, a process of measuring a frequency of a neighbor cell in order to perform a handover by the user terminal is as follows. For reference, FIGS. 1A and 1B are conceptual views illustrating a process of measuring a frequency of an adjacent cell for handover by a conventional WCDMA terminal having limited spectrum band capacity.

The user terminal performs neighbor cell measurement periodically or aperiodically to cope with handover. In this case, when the carrier frequencies of the user terminal and the neighbor cell are the same as f _c as shown in FIG. 1a, intra-frequency measurement is performed. As shown in FIG. 1 b, the carrier frequency of the user terminal is f _C. In contrast, the carrier frequency of the adjacent cell is f _B, and when the two are different from each other, inter-frequency measurement is performed.

Here, the inter-frequency measurement is a factor that hinders the continuous transmission of data because a gap is required in the data transmission section between the camping cell and the user terminal, and causes a drop in the call to degrade the call quality or hand. This causes the success rate of the over. Meanwhile, although 3GPP LTE (Long Term Evolution) discusses a camping cell, an adjacent cell, and a user terminal having an extended spectrum band capacity that supports an extended spectrum band, similarly to the conventional WCDMA in such a changed communication environment. The problem of frequency measurement has not been solved.

The present invention has been proposed to solve the above problems, handover by resetting the carrier frequency by the capacity of each terminal so that the user terminal supporting the extended spectrum band capacity is operated simultaneously in the spectral band of the camping cell and the adjacent cell The aim is to ensure that inter-frequency measurements are made to a minimum.

Another object of the present invention is to provide an optimal communication state between a base station and a user terminal by controlling the carrier frequency of the user terminal when the carrier frequencies of the base station and the user terminal are different for some reason.

One aspect of the present invention for achieving the above object relates to a method for resetting a carrier frequency (carrier frequency) of a user terminal, the user terminal for receiving carrier frequency information according to the user equipment (User Equipment Capability) from the base station And resetting the currently set carrier frequency according to the received carrier frequency information, wherein the user terminal reports one or more of its spectrum bandwidth capability and carrier frequency to the base station. The step may be further included.

On the other hand, another aspect of the present invention for achieving the above object relates to a user terminal capable of resetting the carrier frequency (Carrier Frequency), the wireless communication unit for receiving the carrier frequency information according to the terminal capacity from the base station and the reception And a control unit for resetting a currently set carrier frequency according to one carrier frequency information, and the control unit may further include a function of reporting one or more of its spectrum bandwidth capability and a carrier frequency to a base station. Can be.

In addition, another aspect of the present invention for achieving the above object relates to a method for resetting a carrier frequency (carrier frequency) of the user equipment (User Equipment) in the base station, and transmits the carrier frequency information to the user terminal in the cell In particular, the step of doing.

In each of the above aspects, the carrier frequency information may be carrier frequency information for each terminal capacity for a camping cell, and may further include carrier frequency information for each terminal capacity for a neighbor cell. It may be. In particular, in the latter case, determining whether the carrier frequency of the neighboring cell is included in its spectral band from the received carrier frequency information, and if the carrier frequency of the neighboring cell is not included in its spectral band, Resetting the carrier frequency of the user terminal for is further required.

The carrier frequency information may be a base station broadcasting carrier frequency information to an unspecified user terminal, or the base station may transmit carrier frequency information to a specific user terminal. In particular, in the latter case, when a user terminal reports any one or more of its spectrum bandwidth capability and a carrier frequency to a base station, it is preferable to transmit carrier frequency information to the user terminal.

Hereinafter, exemplary embodiments will be described in detail with reference to the accompanying drawings. To this end, first, the process of measuring neighbor cells for handover in an extended communication environment discussed in Long Term Evolution (LTE) will be described for each embodiment, and then the carrier frequency resetting method of the present invention will be applied to each embodiment. Let's look at how the inter-frequency measurements improve to intra-frequency measurements.

In the communication environment of the LTE standard evolved from the conventional 3GPP WCDMA scheme, the user terminal supports various spectrum band capacities of 5 MHz, 10 MHz, and 20 MHz, and the camping cell and the adjacent cell also support the spectrum band of 10 MHz or 20 MHz, and the user terminal and the cell. It is possible to coexist in these various combinations. When a situation of handover arrives at a user terminal in the changed communication environment, a process of performing neighbor cell measurement is described as follows. For reference, cell measurement refers to measuring the strength of a pilot channel of a cell and receiving a broadcasting control channel. FIGS. 2A to 2H illustrate LTE as described above. In the standard communication environment, a WCDMA terminal is a conceptual diagram illustrating a process of performing neighbor cell measurement for handover.

In FIGS. 2A to 2E, the spectral bands of the camping cell and the adjacent cell are the same as 10 MHz, and the camping cell has a 10 MHz user terminal (hereinafter, referred to as a 10 MHz terminal) and a 20 MHz user terminal (hereinafter, Assume that there is a '20MHz terminal'). In addition, it is assumed that the pilot channel and the broadcasting control channel of each cell are located in the middle of the band of the cell. Thus, the carrier frequency of the cell also corresponds to the midpoint frequency of the band.

As shown in FIG. 2A, since a 10 MHz terminal has the same carrier frequency f _A as a neighboring cell, an intra-frequency measurement is performed in preparation for handover, and since a 20 MHz terminal also has the same carrier frequency f _A as a neighboring cell, frequency Perform my measurements

In Figure 2b, 10MHz terminal a neighboring cell and a carrier frequency different from: does not include the (f _A f _B) the carrier frequency of an adjacent cell in the spectrum band of a corresponding terminal (f _B) to perform the measurement between frequencies for a handover In addition, the 20MHz terminal has a carrier frequency different from that of the neighboring cell (f _A : f _B ), but includes the carrier frequency (f _B ) of the neighboring cell in the spectrum band of the corresponding terminal to perform the intra-frequency measurement.

In FIG. 2C, since a 10 MHz terminal has a different carrier frequency from a neighboring cell (f _A : f _C ) and does not include a carrier frequency f _C of a neighboring cell in a spectrum band of the corresponding terminal, the 10 MHz terminal performs an inter-frequency measurement, and a 20 MHz terminal Also, since the carrier frequency is different from that of the neighboring cell (f _A : f _C ) and the carrier frequency f _C of the neighboring cell is not included in the spectrum band of the terminal, inter-frequency measurement is performed.

In FIG. 2D, the 10 MHz mobile station has a different carrier frequency from the adjacent cell (f _B : f _A ) and performs inter-frequency measurements since the carrier frequency f _A of the adjacent cell is not included in the spectrum band of the corresponding mobile station. Has a carrier frequency different from that of the neighboring cell (f _B : f _A ), but the carrier frequency f _A of the neighboring cell is included in the spectrum band of the corresponding UE, thereby performing intra-frequency measurement.

In Figure 2e, 10MHz terminal a neighboring cell and a carrier frequency different from (f _C: f _A) does not include the carrier frequency (f _A) of the adjacent cell in the spectral band of the terminal performs the measurement between the frequency, 20MHz terminal Also, since the carrier frequency is different from the neighboring cell (f _C : f _A ) and the carrier frequency f _A of the neighboring cell is not included in the spectrum band of the terminal, inter-frequency measurement is performed.

Next, in FIG. 2F, it is assumed that the spectral band of the camping cell is 10 MHz and the spectral band of the adjacent cell is 20 MHz. Here, since the 10MHz terminal is different from the neighboring cell and the carrier frequency (f _A : f _B ) and because the carrier frequency (f _B ) of the neighboring cell is not included in the spectrum band of the terminal, the 10MHz terminal performs the inter-frequency measurement, the 20MHz terminal gajina the adjacent cells and different carrier frequencies: because (f _a f _B) the carrier frequency of an adjacent cell in the spectrum band of the corresponding terminal includes the (f _B) performs measurements within a frequency.

Finally, assume that the spectral band of the camping cell is 20 MHz in FIGS. 2G and 2H.

In Figure 2g, 10MHz terminal a neighboring cell and a carrier frequency different from (f _B: f _A) performing a carrier frequency (f _A) is not included frequency Trunk measurement of neighbor cells within the spectrum of the terminal band, and 20MHz terminal gajina is a neighbor cell is different from the carrier frequency: and (f _B f _a) a carrier frequency of an adjacent cell in the spectrum band of the corresponding terminal includes the (f _a), so do the measurements within a frequency. In FIG. 2H, since the 10MHz terminal and the 20MHz terminal both have the same carrier frequency f _B as the neighboring cell, intra-frequency measurements are performed.

In the above, the measurement process of the neighbor cell by handover in the communication environment of the LTE standard has been described for each embodiment. Therefore, hereinafter, in particular, the process of performing adjacent cell measurement in more detail in FIG. 2C and FIG. 2E will be described in detail, and the adjacent cell measurement of the 20 MHz terminal may be improved to the intra-frequency measurement by applying the carrier frequency resetting method of the present invention. Let's check the process. For reference, FIG. 3 is a conceptual diagram illustrating a process of improving neighbor cell measurement by the carrier frequency resetting method of the present invention in the situation of FIG. 2C, and FIG. 4 illustrates a process of resetting a carrier frequency in the case of FIG. 3. It is a flowchart shown in sequence.

When the user terminals 311 and 312 perform power on and camp on, the user terminals 311 and 312 may not know the carrier frequency information of the cell. In this case, the user terminals 311 and 312 use carrier frequency information of a past cell stored in a User Subscriber Identification Module (USIM), or arbitrarily set their own carrier frequency while searching the entire frequency band, thereby allowing a base station (Node) of a cell. Attempt to detect a pilot channel or a broadcasting control channel transmitted by -B). If a pilot channel or a broadcasting control channel is detected, synchronization between the carrier frequency of the user terminal and the carrier frequency of the cell is made, in which case the cell is considered a camping cell (S401). As shown in FIG. 3 (a) illustrating the camping-on process, it can be seen that the carrier frequency synchronization f _A is performed between the 10 MHz terminal 311 and the 20 MHz terminal 312 and the camping cell 320.

Thereafter, the user terminals 311 and 312 receive the carrier frequency information of the camping cell according to the user equipment capability from the base station (Node-B) 321 of the camping cell (S403), and receive the received carrier frequency information. According to the reset of the carrier frequency for the camping cell (S405). In this case, the user equipment capability is a concept including a spectrum bandwidth capability of a terminal or a receiver capability (single receiver or dual receiver) of the terminal. FIG. 3 (b) shows that the carrier frequency of the 10 MHz terminal 311 is designated as f _A and the carrier frequency of the 20 MHz terminal 312 is designated as f _B in the carrier frequency information of the camping cell. The case where the process is performed is shown. Here, the carrier frequency of 10MHz terminal 311 in accordance with the carrier frequency information of the received camping cell is reset to f _A (or maintained), and, the carrier frequency of 20MHz terminal 312 may confirm that the reset to f _B .

Here, the carrier frequency resetting result of FIG. 3 (b) will be described in more detail. The carrier frequency f _B reconfigured in the 20 MHz terminal 312 is different from the carrier frequency f _A of the camping cell, but the spectrum band of the corresponding terminal. Since the carrier frequency f _A of the camping cell is included, there is no problem in communication between them. In addition, although the reset carrier frequency f _B is different from the carrier frequency f _C of the neighboring cell, in this case, since the spectrum band of the corresponding UE also includes the carrier frequency f _C of the neighboring cell, subsequent handover is performed. There is no problem with the communication between the two. Such a situation may be equally applied to the case where the carrier frequency of the 20 MHz terminal 312 is reset to f _B in FIG. 2E.

Meanwhile, the user terminals 311 and 312 periodically measure the neighbor cell 330 in preparation for handover. In general, since the camping cell also transmits carrier frequency information of neighboring cells, the user terminals 311 and 312 may obtain carrier frequency information according to user equipment capability of neighboring cells through the camping cell (S407). . The user terminals 311 and 312 determine whether the carrier frequency of the neighboring cell 330 is included in their spectrum band from the carrier frequency information of the neighboring cell 330 indirectly received from the camping cell 320 in this way ( S409, when the carrier frequency of the neighbor cell 330 is not included in its spectrum band, the carrier frequencies of the user terminals 311 and 312 for the neighbor cell 330 are reset (S411), and the neighbor cell 330 ) Measurement is performed (S413). 3 (c) illustrates the measurement process of the adjacent cell 330 as described above. As shown in the drawing, the carrier frequency of the 10 MHz terminal 311 of the camping cell 320 is changed from f _B to f _C , but the camping cell ( The carrier frequency of the 20MHz terminal 312 of 320 can be confirmed to remain as f _B without any additional change. After completing the measurement of the neighbor cell 330, the user terminals 311 and 312 return to the carrier frequency for each terminal capacity of the camping cell 320 (S415). That is, since the carrier frequency of the 10 MHz terminal 311 of the camping cell 320 is changed from f _C to f _B again since it has to return to the state as shown in FIG. 3 (b), the 20 MHz terminal 312 of the camping cell 320 The carrier frequency of is still not needed to be changed to f _B. If the carrier frequency of the neighbor cell 330 is included in its spectrum band (in case of the 20MHz terminal 312), the neighbor cell 330 is measured immediately without resetting a carrier frequency (S417).

Meanwhile, the base station 321 of the camping cell may broadcast the carrier frequency information for each terminal capacity of neighboring cells to all user terminals located in the camping cell, or may transmit only limited to a specific user terminal. In particular, in the latter case, the user terminal may first report its carrier frequency information to the base station (Node-B) 321 of the camping cell. The reported carrier frequency information may include any one or more of its own spectrum band capacity and carrier frequency.

The base station 321 analyzes the reported information to directly perform the step S411, and by specifying the carrier frequency to be reset to the specific user terminal instead of transmitting the carrier frequency information for each terminal capacity of the adjacent cells by terminal capacity You can also command the reset to frequency directly.

As described above, it can be seen that the carrier frequency resetting method of the present invention is particularly useful for the 20 MHz terminal in the embodiments of FIGS. 2C and 2E. Hereinafter, even if the carrier frequency resetting method of the present invention is applied to other embodiments, it will be confirmed that a problem does not occur in the call with the camping cell. For reference, FIGS. 5A to 5H are conceptual views illustrating a process of performing adjacent cell measurement for each embodiment in a state where a carrier frequency of a user terminal according to terminal capacity is reset according to the present invention.

In an improved embodiment of the present invention, a terminal having a 10 MHz terminal capacity uses a carrier frequency f _A , and a terminal having a 20 MHz terminal capacity uses a carrier frequency f _B such that the camping cell uses carrier frequency information for each terminal capacity. It is assumed that transmission is performed through a broadcasting control channel. In addition, since the 10MHz terminal is not applied to the carrier frequency reset of the present invention will be described focusing on the 20MHz terminal.

As shown in FIG. 5A, a 20 MHz terminal has a different carrier frequency f _B : f _A from a neighboring cell, but since the carrier frequency of the neighboring cell is included in the spectrum band of the user terminal, a separate carrier frequency reset is not performed and is performed when handing over. Make an intra-frequency measurement.

In FIG. 5B, since the 20 MHz terminal has the same carrier frequency f _B as the neighboring cell, a separate carrier frequency resetting is not performed and the intra-frequency measurement is performed during the handover.

In FIG. 5C, since the 20 MHz terminal has its carrier frequency reset to f _B , the spectrum band of the terminal includes the carrier frequency of the camping cell and the neighboring cell at the same time, so that there is no problem in communication with the base station in the camping cell. In-frequency measurements can also be performed on cells.

In Figure 5d, 20MHz terminal gajina a different carrier frequency and the adjacent cell (f _B: f _A) because it includes the carrier frequency (f _A) of the adjacent cell in the spectral bands of the terminal a separate carrier frequency, resetting is not performed Hand If over, perform in-frequency measurement.

In FIG. 5E, since the carrier frequency of the 20 MHz terminal is reset to f _B so that the spectrum band of the terminal includes the carrier frequency of the camping cell and the neighboring cell at the same time, there is no problem in communication with the base station in the camping cell as well as the neighboring cell. In-frequency measurements can also be performed for.

In FIG. 5F, a 20 MHz terminal has a carrier frequency different from that of an adjacent cell in principle (f _A : f _B ), but performs an intra-frequency measurement because the carrier frequency f _B of the adjacent cell is included in the spectrum band of the corresponding terminal. When handing over to the neighbor cell, the carrier frequency may be synchronized with the carrier frequency f _B of the neighbor cell in advance for stable communication with the neighbor cell.

In Figure 5g, 20MHz terminal gajina a different carrier frequency and the adjacent cell (f _B: f _A) because it includes the carrier frequency (f _A) of the adjacent cell in the spectral bands of the terminal a separate carrier frequency, resetting is not performed Hand If over, perform in-frequency measurement.

In FIG. 5H, since the carrier cell has the same carrier frequency f _B as a neighboring cell, a separate carrier frequency resetting is not performed, and an intra-frequency measurement is performed during handover.

Lastly, a configuration of a user terminal for implementing the resetting method of the carrier frequency described above will be described.

The user terminal includes an input unit 601 for selecting a desired function or receiving information, a display unit 603 for displaying various information for operating the user terminal, various programs and a receiving side for operating the user terminal. A memory unit 605 for storing data to be transmitted to the memory, a wireless communication unit 607 for receiving an external signal and transmitting data to the receiving side, and converting and amplifying a digital voice signal into an analog voice signal to a speaker SP. And a sound processor 609 for outputting or amplifying a voice signal from the microphone MIC and converting the voice signal into a digital signal, and a controller 611 for controlling the overall driving of the user terminal.

Here, the wireless communication unit 607 of the present invention receives a variety of information for synchronization from the base station of the camping cell, and the function of receiving the carrier frequency information by the terminal capacity of the camping cell and the terminal capacity of the neighboring cells from the camping cell The control unit 611 has a function of resetting the currently set carrier frequency according to the received carrier frequency information of the camping cell. Also, the controller 611 determines whether the carrier frequency of the neighboring cell is included in its spectrum band from the received carrier frequency information of the neighboring cell, and the carrier frequency of the neighboring cell is not included in its spectrum band. In this case, the method may further include a function of resetting a carrier frequency of a user terminal for an adjacent cell, and reporting one or more of its spectrum bandwidth capability and a carrier frequency to a base station.

On the other hand, the user terminal of the present invention PDA (Personal Digital Assistant), cellular phone, PCS (Personal Communication Service) phone, GSM (Global System for Mobile) phone, WCDMA (Wideband CDMA) phone, MBS (Mobile Broadband System) phone And the like can be used.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings. Accordingly, the present invention is not necessarily limited to the WCDMA system, and any system may be applied to a communication system in which a cell supporting various spectrum bands and a user terminal having various spectrum band capacities coexist and a handover may occur.

According to the present invention, the user terminal supporting the extended spectrum bandwidth capacity is reset at the same frequency in accordance with the terminal capacity so that the user terminal to operate simultaneously in the spectral band of the camping cell and the neighboring cell to minimize the inter-frequency measurement in preparation for handover You can do

Claims (20)

In the method of resetting the carrier frequency of the user terminal, Receiving, by the user terminal, carrier frequency information according to the terminal capacity from the base station; And Resetting the carrier frequency currently set according to the received carrier frequency information, The carrier frequency information is carrier frequency information for each terminal capacity for a camping cell. A carrier frequency control method of a user terminal. delete The method of claim 1, The carrier frequency information may further include carrier frequency information for each terminal capacity of a neighbor cell. The method of claim 3, Determining whether a carrier frequency of an adjacent cell is included in its spectrum band from the received carrier frequency information; And If the carrier frequency of the neighbor cell is not included in its spectrum band, resetting the carrier frequency of the user terminal for the neighbor cell Carrier frequency control method of the user terminal further comprising. The method according to claim 1 or 3, The carrier frequency information is a carrier frequency control method of a user terminal, characterized in that the base station (Node-B) is broadcast (broadcasting) to the unspecified user terminal. The method according to claim 1 or 3, The carrier frequency information is a carrier frequency control method of a user terminal, characterized in that the base station (Node-B) is transmitted to a specific user terminal. The method of claim 6, And reporting the at least one of a spectrum bandwidth capability and a carrier frequency by the user terminal to the base station. In the user equipment (User Equipment) capable of resetting the carrier frequency (Carrier Frequency), A wireless communication unit for receiving carrier frequency information according to terminal capacity from a base station; And And a controller for resetting a currently set carrier frequency according to the received carrier frequency information. The carrier frequency information is carrier frequency information for each terminal capacity for a camping cell. User terminal. delete 9. The method of claim 8, The carrier frequency information may further include carrier frequency information for each terminal capacity of a neighbor cell. The method of claim 10, The controller determines from the received carrier frequency information whether the carrier frequency of the neighbor cell is included in its spectrum band, and if the carrier frequency of the neighbor cell is not included in its spectrum band, the carrier of the user terminal for the neighbor cell The user terminal further comprises a function for resetting the frequency. The method of claim 8 or 10, The carrier frequency information is characterized in that the base station is broadcast (broadcasting) to the unspecified user terminal. The method of claim 8 or 10, The carrier frequency information is characterized in that the base station is transmitted to a specific user terminal. 14. The method of claim 13, The control unit further comprises a function for reporting any one or more of its spectrum bandwidth capability (carrier frequency) and the carrier frequency to the base station. In the method for resetting the carrier frequency (carrier frequency) of the user equipment (User Equipment) in the base station, Transmitting carrier frequency information according to a terminal capacity to a user terminal in a jurisdiction cell; The carrier frequency information is carrier frequency information for each terminal capacity for a camping cell. A carrier frequency control method of a user terminal. delete 16. The method of claim 15, The carrier frequency information may further include carrier frequency information for each terminal capacity of a neighbor cell. 18. The method of claim 15 or 17, wherein the transmission of the carrier frequency information A base station (Node-B) is a carrier frequency control method for a user terminal, characterized in that for broadcasting (broadcasting) carrier frequency information for an unspecified user terminal. 18. The method of claim 15 or 17, wherein the transmission of the carrier frequency information A base station (Node-B) is a carrier frequency control method of the user terminal, characterized in that for transmitting the carrier frequency information to a specific user terminal. The method of claim 19, wherein the transmission of the carrier frequency information The carrier frequency control method of the user terminal, characterized in that for transmitting the carrier frequency information to a specific user terminal that has reported any one or more of its own spectrum bandwidth capability (carrier frequency).

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