KR20210066566A - Communication apparatus communicating a plural communication method, and control method thereof - Google Patents

Abstract

The present invention relates to a communication terminal supporting multiple communication schemes and a control method thereof. According to the present invention, the control method of the communication terminal includes the following steps of: when a communication scheme display mode is set to a first mode, determining a second communication scheme indicator display state corresponding to a second communication scheme in accordance with communication scheme support information received from a first base station in a 'standby state;' that the first base station and a wireless resource control layer for communication network connection are not connected; determining the second communication scheme indicator display state based on information received from a second base station after connection with the second base station by using communication with the first base station in a 'connection state' that the first base station and the wireless resource control layer are connected; comparing the second communication scheme indicator display state determined in the 'standby state' of the above-stated step and the second communication scheme indicator display state determined in the 'connection state' of the above-stated step to each other to accumulatively store the number of unmatched cases; and when the number of unmatched cases which has been accumulatively stored in the above-stated step exceeds a preset value, switching the communication mode to the second mode to lead the second communication scheme indicator display state in the 'standby state' to follow the second communication scheme indicator display state previously determined in the 'connection state'. Therefore, the present invention is capable of more accurately displaying an area where 5G communication is available.

Description

A communication terminal supporting a plurality of communication methods and a control method therefor {COMMUNICATION APPARATUS COMMUNICATING A PLURAL COMMUNICATION METHOD, AND CONTROL METHOD THEREOF}

The present invention relates to a communication terminal and a control method thereof, and more particularly, to a communication terminal supporting a plurality of communication methods and a control method thereof.

With the development of electronic communication technology, mobile communication services have also been continuously developed.

Mobile communication methods are expressed in the form of adding G to a number, such as 1G, 2G, 3G, 4G, and 5G by technology, where G stands for Generation, and 5G stands for 5G mobile communication technology. do.

The latest technology commercialized at this time is 5G communication, but so far, the 5G communication network has not been used alone, and the service is provided by being built with the 4G communication network.

However, a user who owns a communication terminal that supports both 4G and 5G communication methods wants to know whether 4G communication network is possible or 5G communication is possible at the present time or location. For this reason, 4G and 5G indicators are separately placed in communication terminals. , the corresponding indicator is displayed depending on the situation.

However, in this way, the system that cannot be used alone with 5G and operates together with 4G, so-called NSA (Non Stand Alone) communication network, has some problems related to the display of the communication method indicator.

Currently, 3GPP standards, GSMA recommendations, and commercialized 5G terminals mostly use the value of upperLayerIndication (uLI) in sib2 (system information block2) broadcast by the eNB, the LTE base station, as the first standard for displaying the 5G status indicator (5G icon). are making it usable.

The use of uLI in the sib2 message is a useful method because it is a value that the terminal can receive and demodulate even in the idle state, not in the connected state to the base station.

However, according to the content of these standards, the case in which a shade is displayed in FIG. 1 is a problem.

In other words, the method of using uLI in sib2 has the advantage of being simple, but because it does not provide any information about the frequency, it is extremely extreme, in the case of a 5G terminal that supports only LTE+ 5G mmWave frequency, sub6GHz (3.5 in Korea) as shown in FIG. Even in coverage where only 5G frequencies in the GHz band are supported, there is a problem that the 5G status indicator is displayed according to the standard.

That is, when there are a plurality of frequencies (first frequency, second frequency) using the 5G communication method, the communication terminal supports only the first frequency among them, but the communication terminal is located near the base station supporting the second frequency , despite the fact that 5G data communication is practically impossible according to the conventional method, the 5G indicator is displayed, which confuses the user.

All of these problems are because the initial 5G network and terminal support type uses a non-standalone or EN-DC configuration.

The configuration of Non-Standalone or EN-DC (EUTRA+NR Dual Connectivity) is proposed to quickly introduce 5G in the initial stage, in which the LTE base station and frequency serve as the master, and the 5G base station and frequency serve as the secondary. It is a form of increasing the data rate.

Therefore, the 5G terminal does not always need to maintain the state connected to the 5G base station (RRC Connected), and only needs to be connected when transmitting and receiving data through the 5G base station, and the RRC Connected state is generally made through the 4G (ie, LTE) base station. .

This problem does not occur when the communication terminal is RRC connected to the 5G base station in the 5G NSA system. In this case, since the 5G base station provides information on a frequency available for data communication to the communication terminal, the communication terminal can determine whether to display the 5G indicator by comparing it with the frequency supported by the communication terminal.

The problem occurs when the 5G NSA communication terminal is in the RRC idle state, and the 5G indicator is displayed even though the actual 5G frequency range is different, causing confusion to the user.

Patent Publication No. 10-2018-0035607

The present invention has been devised to solve the above problems of the prior art, and an object of the present invention is to provide a communication terminal capable of displaying a 5G indicator only in a state in which data communication using a 5G communication network is substantially possible, and a method for controlling the same.

In order to achieve the above object, a communication terminal performing data communication with a second base station supporting a second communication method using information transmitted by a first base station supporting a first communication method according to the present invention in order to achieve the above object, the communication method When the display mode is set to the first mode, in the 'standby state' in which the connection to the radio resource control layer for communication with the first base station is not made, the second base station according to the communication method support information received from the first base station a standby state processing unit for determining a display state of a second communication method indicator corresponding to the communication method; In the 'connected state' in which the first base station and the radio resource control layer are connected, after connecting to the second base station using communication with the first base station, based on information received from the second base station, the a connection state processing unit for determining a display state of a second communication method indicator; By comparing the second communication method indicator display state determined in the 'standby state' of the first mode by the standby state processing unit and the second communication method indicator display state determined in the 'connection state' by the connection state processing unit, do not match each other a comparison processing unit for accumulating and storing the number of times; and a mode setting unit for switching the communication mode to a second mode when the number of times accumulated and stored by the comparison processing unit exceeds a preset value, wherein the standby state processing unit changes the communication mode to the second mode by the mode setting unit When switched, the display state of the second communication method indicator in the 'standby state' is characterized in that it follows the display state of the second communication method indicator determined in the 'connection state' immediately before.

In addition, in order to achieve the above object, the control of a communication terminal performing data communication with a second base station supporting the second communication method using information transmitted by the first base station supporting the first communication method according to the present invention The method supports a communication method received from the first base station in a 'standby state' in which a connection to a radio resource control layer for communication with the first base station is not made when the communication method display mode is set to the first mode determining a display state of a second communication method indicator corresponding to the second communication method according to the information; In the 'connected state' in which the first base station and the radio resource control layer are connected, after connecting to the second base station using communication with the first base station, based on information received from the second base station, the determining a second communication method indicator display state; comparing the display state of the second communication method indicator determined in the 'standby state' of the step with the display state of the second communication method indicator determined in the 'connection state' of the step and accumulating and storing the number of times they do not match each other; When the accumulated number of stored times in the above step exceeds a preset value, the communication mode is switched to the second mode, and the display state of the second communication method indicator in the 'standby state' is determined previously in the 'connection state' and following the second communication method indicator display state.

As described above, according to the present invention, the communication terminal does not simply depend on the information received from the 4G base station whether to display the 5G communication indicator, but compares the corresponding information with the information determined at the time when the actual 5G communication is made and RRC By determining whether to display the 5G indicator in the IDLE state, indicator display can be performed more accurately.

In other words, even in the 'standby state' where the communication terminal is not currently performing data communication, it accurately indicates whether 5G communication is possible, thereby preventing confusion due to incorrect indicator display.

1 is a table showing a conventional indicator display state and problems,
2 is a schematic configuration diagram of an entire system including a communication terminal according to an embodiment of the present invention;
3 is a functional block diagram of the communication terminal of FIG. 2;
4 is a diagram illustrating a process in which the communication terminal of FIG. 2 updates a mapping table;
5 and 6 are control flowcharts of a communication terminal according to an embodiment of the present invention.

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

Hereinafter, each embodiment according to the present invention is merely an example for helping understanding of the present invention, and the present invention is not limited to these embodiments. In particular, the present invention may be composed of a combination of at least any one of individual components, individual functions, or individual steps included in each embodiment.

In particular, for convenience, some of the claims include an alphabet such as '(a)', but the alphabet does not define the order of each step.

A schematic configuration of the entire system including the communication terminal 100 according to an embodiment of the present invention is shown in FIG. 2 .

In this figure, a first base station 201 and a second base station 202 are shown. The first base station 201 is a base station supporting the first communication method, and the second base station 202 is the second communication method. Supported base station.

In this embodiment, it is assumed that the first communication method is a 4G (Fourth Generation) communication method called Long-Term Evolution (LTE), and the second communication method is a recently commercialized 5G (Fifth Generation) communication method.

In particular, in this embodiment, functions such as call connection establishment are performed using the first base station 201, that is, the 4G base station, while the 4G and 5G communication schemes coexist as described above, and data communication is performed with the first base station 201 and the second base station 201. It is assumed that the NSA (Non Stand Alone) system is formed through at least one of the 2 base stations 202 (ie, 4G base station and 5G base station).

In this NSA system, the communication terminal 100 communicates with the first base station 201 supporting the first communication method and the second base station 202 supporting the second communication method, respectively, in particular, the first base station 201 ) may be used to perform data communication with the second base station 202 .

That is, for data communication with the second base station 202, communication with the first base station 201 should be preceded before that, and as mentioned above, this is an essential process in the NSA.

That is, the communication terminal 100 provides information necessary for communication with the second base station 202 (eg, whether communication with the second base station 202 is possible, information necessary for connection with the second base station 202 ) etc.) is obtained through the information transmitted by the first base station 201 .

In such an NSA system, a call establishment procedure and data communication technology itself correspond to known technologies, and thus a more detailed description thereof will be omitted.

2 shows a specific functional block of the communication terminal 100 communicating in the NSA system as described above.

As shown in the figure, the communication terminal 100 includes a standby state processing unit 110 , a connection state processing unit 120 , a comparison processing unit 130 , a mode setting unit 140 , a storage unit 150 , and a display unit 160 . It may be composed of

First, the storage unit 150 stores data and applications necessary for the operation of the communication terminal 100 , and further, may additionally store data newly generated or received from the outside during the operation of the communication terminal 100 .

In particular, the storage unit 150 may match and store the operation mode in units of each base station or communication cell, or in units of regions. That is, as will be described later, the mode setting unit 140 may perform a function of permanently storing the region identifier for switching to the second mode in the second mode setting target region table or storing only for a preset period of time. A more detailed description will be given later.

The display unit 160 performs a function of displaying various status information during operation of the communication terminal 100, for example, a first communication indicating a state in which communication with the first base station 201 supporting the first communication method is possible A method indicator may be displayed (lit), or a second communication method indicator indicating a state in which communication with the second base station 202 supporting the second communication method is possible may be displayed (lit).

The connection state processing unit 120 connects to the second base station 202 based on the information received from the first base station 201 in the 'connected state' in which the first base station 201 and the radio resource control layer are connected. Then, based on the information (eg, frequency information, etc.) received from the second base station 202, a function of determining the display state of the second communication method indicator (eg, the icon is turned on or off) is performed.

That is, the communication terminal 100 is connected to the first base station 201 and the radio resource control layer for network connection (for example, RRC (Radio Resource Control) Connected state, hereinafter referred to as 'connected state') or It is possible to maintain a state in which a corresponding connection is not made (for example, an RRC idle state, hereinafter referred to as a 'standby state'), and the connection state processing unit 120 controls radio resources for communication with the first base station 201 among them. It performs a function of determining the display state of the second communication method indicator in the state in which the connection to the layer is made (ie, the RRC Connected state).

The standby state processing unit 110 performs a function of determining the display state of the second communication method indicator in the 'standby state' in which the connection to the radio resource control layer for connection to the first base station 201 and the communication network is not made.

That is, the second communication method indicator in a state in which the communication terminal 100 is not connected to the radio resource control layer for connection to the first base station 201 and the communication network (ie, RRC Idle state or 'standby state'). It is to perform the function to determine the display state of

That is, even in the state of RRC Idle with the first base station 201, the user checks the state of the second communication method indicator whether data communication (for example, 5G communication) is possible through the second base station 202 at the corresponding location or at the corresponding time. As can be seen, the standby state processing unit 110 performs such a function.

In particular, the determination of the display state of the second communication method indicator may vary according to the set communication method display mode.

That is, when the communication method display mode is set to the first mode, the standby state display unit 160 displays the first base station 201 in the 'standby state' in which the connection to the radio resource control layer for communication with the first base station 201 is not made. The display state of the second communication method indicator corresponding to the second communication method is determined according to the communication method support information received from the base station 201 .

For example, the standby state display unit 160 may control the display unit 160 to display or not display the second communication method indicator according to the communication method support information received from the first base station 201 .

Such a communication method display mode may be made by the mode setting unit 140 to be described later, and a more detailed description thereof will be provided later.

When the communication mode is switched/set to the second mode by the mode setting unit 140, the standby state processing unit 110 displays the second communication method indicator display state in the above-described 'standby state' immediately before the 'connection state' It is possible to follow the display state of the second communication method indicator determined in '.

For example, when set to the first mode, the standby state processing unit 110 displays the second communication method indicator according to the information that communication is possible through the second base station 202 is received from the first base station 201 However, when the second mode is set, even if information indicating that communication through the second base station 202 is possible is received from the first base station 201, the second communication method is performed in the previous 'connected state'. If it is determined that communication is impossible, the second communication method indicator may not be displayed according to the determination. To repeat, the function of the 'standby state processing unit 110' is to determine the display state of the second communication method indicator in the 'standby state' rather than the 'connection state'.

To this end, the display state of the second communication method indicator determined in each 'connection state' and the display state of the second communication method indicator determined in the 'standby state' may be continuously stored and managed.

In particular, when the mode setting unit 140 switches to the second mode, the standby state processing unit 110 may perform the same processing in a plurality of communication cells grouped into one group.

For example, for a plurality of communication cells grouped by region, the standby state processing unit 110 sets the display state of the second communication method indicator in the 'standby state' to the same as the first mode or the same to the second mode can be made to follow. To this end, the standby state processing unit 110 is located in the same area as the communication cell (eg, having the same area code) when the predetermined communication cell is set to the second mode by the mode setting unit 140 as will be described later. ), the operation according to the second mode may be performed for other communication cells.

On the other hand, the comparison processing unit 130 is a second communication method indicator display state determined in the 'standby state' of the first mode by the standby state processing unit 110 and the second determined in the 'connected state' by the connection state processing unit 120 . It compares the display status of the communication method indicator and accumulates and stores the number of times the comparison results do not match each other.

That is, the comparison processing unit 130 displays the display state (displayed or not) of the second communication method indicator determined as the 'standby state' of the first mode by the standby state processing unit 110 and the 'connection state' by the connection state processing unit 120 . After comparing the display state (displayed or not) of the second communication method indicator determined in , if they do not match, the number of times is accumulated and stored.

The accumulated storage of the number of discrepancies by the comparison processing unit 130 may be performed in units of communication cells of each first base station 201 .

For example, a plurality of communication cells may exist within the coverage of the first base station 201 according to a direction, and the comparison processing unit 130 may perform the above-described comparison processing for each communication cell.

Each communication cell may be identified, for example, by a PCI (Physical-layer Cell ID) transmitted by a base station, which corresponds to a known technology, and thus a more detailed description thereof will be omitted.

For example, when cell information including a cell identifier (PCI) and a region identifier (TAI or TAC) is received for each communication cell unit, the comparison processing unit 130 may accumulate and store the number of mismatches for each cell identifier.

The mode setting unit 140 performs a function of switching the communication mode to the second mode when the number of times accumulated and stored by the comparison processing unit 130 exceeds a preset value.

That is, even if the mode setting unit 140 is set to the first mode in the current communication cell, when the number of times accumulated and stored by the comparison processing unit 130 exceeds a preset value, the mode setting unit 140 switches to the second mode for the current communication cell. is to set

Specifically, when the number of mismatches accumulated and stored by matching any one cell identifier exceeds a preset value, the mode setting unit 140 checks the area identifier of the communication cell exceeding the number of mismatches, and matches the identified area identifier The communication mode may be switched to the second mode for all communication cells that have been used.

The mode setting unit 140 may manage this process using a predetermined mapping table, an example of which is shown in FIG. 4 .

In FIG. 4(a), TAI includes country information (MCC), communication operator information (MNC), and region information (TAC), PCI is information on each communication cell, and False_counter is the above-mentioned 'accumulated number of mismatches', Idle_ignore indicates the first mode if False, and indicates the second mode if true.

4(a) shows three communication cells included in the same TAI.

If the maximum value of false_counter is 3, in 4(a), since there are no communication cells that are 3 or more, the Idle_ignore state of each communication cell is set to 'false' (that is, all cells are set to operate in the first mode). can be known

In this state, if the False_counter of any one communication cell becomes 3, the Idle_ignore state of all cells belonging to the same TAI may be set to 'true' (ie, the second mode).

An example of this is shown in Fig. 4(b).

That is, when the False_counter value of the 214 communication cell becomes 3, the mode setting unit 140 sets the 214 cell as well as the 213 and 215 communication cells matched with the same area information as the 214 cell. It is to switch Idle_ignore to mode 'true'.

The above-described standby state processing unit 110 may determine whether the second mode setting target region is the second mode setting target region with reference to the mapping table (called the second mode setting target region table) as shown in FIG. 4 .

For example, the standby state processing unit 110 refers to the second mode setting target area table whenever the area identifier (the above-described TAI or TAC) received from each communication cell is changed and checks whether the second mode setting target area is And, in the case of the second mode setting target area, the operation according to the second mode in the area, that is, the second communication method indicator display state in the 'standby state' based on the information received from the first base station 201 Rather, it may be processed to follow the display state of the second communication method indicator determined in the 'connection state' immediately before it.

Hereinafter, a process of changing from the first mode to the second mode for a specific communication cell in the communication terminal 100 according to an embodiment of the present invention will be described with reference to FIGS. 5 and 6 .

First, a detailed process of changing to the second mode within the same communication cell will be described with reference to FIG. 5 .

The communication terminal 100 checks whether the second mode setting target area table for the current communication cell is generated, and if it does not exist, creates a new table.

At this time, False_counter=0 and Idle_ignore=False are set as default values for the corresponding communication cell.

If the table exists, it is checked whether Idle_ignore is set to False in the current communication cell (the first mode is set), and if Idle_ignore is set to False as a result of the check, it is determined in the 'standby state' through the communication process later. The display state of the second communication method indicator is compared with the display state of the second communication method indicator determined in the 'connection state'.

If the comparison result is not the same, False_counter is incremented by 1, and when the False_counter value reaches the maximum value, the communication terminal 100 sets Idle_ignore to True (second mode) in the corresponding communication cell.

In this case, the communication terminal 100 may also set Idle_ignore of another communication cell belonging to the same region as the corresponding communication cell to True in the mapping table.

Meanwhile, FIG. 6 shows a processing procedure when a communication cell is changed.

When detecting a PCI change, the communication terminal 100 extracts a TAC value (or TAI value) corresponding to the PCI.

Such a TAC value may be determined with reference to information received from each communication cell.

Next, the communication terminal 100 checks the Idle_ignore value of another communication cell belonging to the same TAC by searching the preset and stored mapping table.

As a result of the check, if Idle_ignore is set to True in any one of the communication cells, the communication terminal 100 updates the mapping table by setting Idle_ignore to True for the current communication cell.

Meanwhile, it goes without saying that the process of performing each of the above-described embodiments may be performed by a program or application stored in a predetermined recording medium (eg, computer-readable). Here, the recording medium includes an electronic recording medium such as a random access memory (RAM), a magnetic recording medium such as a hard disk, and an optical recording medium such as a compact disk (CD).

In this case, the program stored in the recording medium may be executed on hardware such as a computer or a smart phone to perform each of the above-described embodiments. In particular, at least one of the functional blocks of the communication terminal according to the present invention described above may be implemented by such a program or application.

In addition, the present invention is not limited to the specific embodiments described above, but can be practiced with various modifications and modifications within the scope without departing from the gist of the present invention. It will be apparent that such modifications and variations are included in the present invention provided they fall within the scope of the appended claims.

100: communication terminal 201: first base station
202: second base station 110: standby state processing unit
120: connection state processing unit 130: comparison processing unit
140: mode setting unit 150: storage unit
160: display unit

Claims (12)

A method of controlling a communication terminal for performing data communication with a second base station supporting a second communication method using information transmitted by a first base station supporting a first communication method, the method comprising:
(a) When the communication method indication mode is set to the first mode, the communication method received from the first base station is supported in the 'standby state' in which the connection to the radio resource control layer for communication with the first base station is not made determining a display state of a second communication method indicator corresponding to the second communication method according to the information;
(b) In the 'connected state' in which the first base station and the radio resource control layer are connected, after connecting to the second base station using communication with the first base station, information received from the second base station is determining a display state of the second communication method indicator based on;
(c) the number of times when the display state of the second communication method indicator determined in the 'standby state' of step (a) is not matched with the display state of the second communication method indicator determined in the 'connection state' of step (b) accumulatively storing;
(d) when the accumulated number of stored times in step (c) exceeds a preset value, the communication mode is switched to the second mode, and the display state of the second communication method indicator in the 'standby state' is immediately before the The method of controlling a communication terminal, comprising the step of following the display state of the second communication method indicator determined in the 'connection state'. According to claim 1,
The accumulated storage of the number of mismatches in step (c) is made in units of communication cells of each first base station,
In the step (d), when switching to the second mode, the control method of a communication terminal, characterized in that the same processing is performed in a plurality of communication cells grouped into one group. 3. The method of claim 2,
In step (c), when cell information including a cell identifier and a region identifier is received for each communication cell, the number of mismatches is accumulated and stored for each cell identifier,
In step (d), when the number of mismatches accumulated and stored by matching any one cell identifier exceeds a preset value, the area identifier of the communication cell exceeding the number of mismatches is checked, and all communications matching the identified area identifier A method of controlling a communication terminal, characterized in that the communication mode is switched to the second mode for the cell. 4. The method of claim 3,
(e) permanently store the area identifier for switching to the second mode in the second mode setting target area table, and refer to the second mode setting target area table whenever the area identifier received from each communication cell is changed 2 The method of controlling a communication terminal, characterized in that it further comprises the step of determining whether the setting target area. 3. The method of claim 2,
(f) storing the area identifier for switching to the second mode in the second mode setting target area table and maintaining it for a preset time, and whenever the area identifier received from each communication cell is changed, the second mode setting target area The method of controlling a communication terminal, characterized in that it further comprises the step of checking whether the second mode setting target area by referring to the table. A computer-readable recording medium recording a program for executing the method of any one of claims 1 to 5. An application program stored in a computer-readable recording medium in combination with hardware to execute the method of any one of claims 1 to 5. A communication terminal performing data communication with a second base station supporting a second communication method using information transmitted by a first base station supporting a first communication method, the communication terminal comprising:
When the communication method display mode is set to the first mode, in the 'standby state' in which the connection to the radio resource control layer for communication with the first base station is not made, according to the communication method support information received from the first base station a standby state processing unit for determining a display state of a second communication method indicator corresponding to the second communication method;
In the 'connected state' in which the first base station and the radio resource control layer are connected, after connecting to the second base station using communication with the first base station, based on information received from the second base station, the a connection state processing unit for determining a display state of a second communication method indicator;
By comparing the second communication method indicator display state determined in the 'standby state' of the first mode by the standby state processing unit and the second communication method indicator display state determined in the 'connection state' by the connection state processing unit, do not match each other a comparison processing unit for accumulating and storing the number of times;
and a mode setting unit for switching the communication mode to a second mode when the number of times accumulated and stored by the comparison processing unit exceeds a preset value,
The standby state processing unit, when the communication mode is switched to the second mode by the mode setting unit, the second communication method indicator display state in the 'standby state' is the second communication determined in the 'connection state' just before Communication terminal, characterized in that to follow the method indicator display state. 9. The method of claim 8,
The accumulated storage of the number of discrepancies by the comparison processing unit is performed in units of communication cells of each first base station,
When the mode setting unit switches to the second mode, the standby state processing unit performs the same processing in a plurality of communication cells grouped into one group. 10. The method of claim 9,
The comparison processing unit accumulates and stores the number of discrepancies for each cell identifier when cell information including a cell identifier and a region identifier is received for each communication cell,
When the number of mismatches accumulated and stored by matching any one cell identifier exceeds a preset value, the mode setting unit checks the area identifier of the communication cell that exceeds the number of mismatches, and applies to all communication cells matching the checked area identifier A communication terminal, characterized in that for switching the communication mode to the second mode. 11. The method of claim 10,
a storage unit for permanently storing the region identifier for switching to the second mode by the mode setting unit in a second mode setting target region table;
The communication terminal according to claim 1, wherein the standby state processing unit checks whether the second mode setting target area is the second mode setting target area by referring to the second mode setting target area table whenever the area identifier received from each communication cell is changed. 10. The method of claim 9,
a storage unit for storing the region identifier for switching to the second mode in a second mode setting target region table and maintaining it for a preset time;
The communication terminal according to claim 1, wherein the standby state processing unit checks whether the second mode setting target area is the second mode setting target area by referring to the second mode setting target area table whenever the area identifier received from each communication cell is changed.

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