JP7100740B2 - Mobile terminal - Google Patents

Description

The present disclosure relates to mobile terminals.

Conventionally, there is known a technique for determining a communication carrier (hereinafter, also simply referred to as "carrier") based on information recorded in an inserted SIM (Subscriber Identity Module) in a mobile terminal.

With the development of communication technology, in addition to the conventional mobile network operator (MNO: Mobile Network Operator), a virtual mobile network operator (MVNO: Mobile Virtual Network Operator) has also appeared as a carrier. The MVNO does not open and operate the wireless communication line equipment by itself, but provides the mobile communication service by using the mobile communication service provided by the MNO.

In the prior art, separate MNOs are distinguished by a mobile country code (MCC: Mobile Country Code), a mobile network code (MNC: Mobile Network Code), and the like (see, for example, Patent Document 1).

Special Table 2015-511093

When the MVNO uses the mobile communication service of a certain MNO, the MVNO and the MNO use the same network. In this case, even if the MCC or MNC is recorded in the SIM, the carrier corresponding to the SIM may not be specified, and there is room for improvement in the convenience of carrier determination in the mobile terminal.

An object of the present disclosure is to provide a mobile terminal capable of improving the convenience of carrier determination.

The mobile terminal according to the embodiment of the present disclosure includes a memory that holds a plurality of APNs (Access Point Names), and a controller that determines a carrier on which the own machine performs data communication based on the plurality of APNs. ..

According to the mobile terminal according to the embodiment of the present disclosure, the convenience of carrier determination can be improved.

It is a figure which shows the schematic structure of the mobile terminal which concerns on 1st Embodiment of this disclosure. It is a flowchart which shows an example of the operation of the mobile terminal which concerns on 1st Embodiment of this disclosure. It is a flowchart which shows the other example of the operation of the mobile terminal which concerns on 1st Embodiment of this disclosure. It is a figure which shows the schematic structure of the mobile terminal which concerns on 2nd Embodiment of this disclosure. It is a flowchart which shows an example of the operation of the mobile terminal which concerns on 2nd Embodiment of this disclosure.

Hereinafter, embodiments of the present disclosure will be described with reference to the drawings.

(First Embodiment)
FIG. 1 is a diagram showing a schematic configuration of a mobile terminal 100 according to the first embodiment of the present disclosure. The mobile terminal 100 is a terminal into which a SIM card 30 is inserted to perform a call, data communication, or the like. The mobile terminal 100 may be a mobile phone, a smartphone, or the like.

Unique information is recorded on the SIM card 30. Based on the unique information recorded in the SIM card 30, the carrier into which the mobile terminal 100 into which the SIM card 30 is inserted can perform data communication is determined. Hereinafter, the carrier will also be referred to as a "carrier corresponding to the SIM card 30".

As shown in FIG. 1, the mobile terminal 100 includes a wireless communication unit 11, a speaker 12, a microphone 13, a camera 14, a display 15, an operation unit 16, a memory 17, a SIM card slot 18, and a controller. It is equipped with 19.

The wireless communication unit 11 connects to a communication network by wirelessly communicating with, for example, a wireless communication base station via an antenna. The wireless communication unit 11 realizes a function for the mobile terminal 100 to perform a call, data communication, and the like.

The speaker 12 converts the voice signal supplied from the controller 19 into voice and outputs it. The speaker 12 outputs the voice of the other party during a call.

The microphone 13 collects a user's voice, nearby sounds, and the like during a call. The microphone 13 converts the collected sound into an electric signal and outputs it to the controller 19.

The camera 14 is an element that realizes the function of a digital camera capable of capturing a still image or a moving image. The still image or moving image data captured by the camera 14 can be stored in, for example, the memory 17.

The display 15 includes a liquid crystal display, an organic EL (Electro Luminescence) display, an inorganic EL display, and the like. The display 15 may include a light source or a light emitting element used as a backlight. The display 15 displays various information such as characters, symbols, images, and images such as operation objects (icons) to the user who operates the mobile terminal 100.

The operation unit 16 receives an input from the user to the mobile terminal 100. The operation unit 16 may include various keys and the like that accept input from the user. When the display 15 is a touch panel display, the display 15 may have the function of the operation unit 16.

The memory 17 is connected to the controller 19 and stores information acquired from the controller 19. The memory 17 may function as a working memory of the controller 19. The memory 17 may store a program executed by the controller 19. The memory 17 is composed of, for example, a semiconductor memory, but is not limited to this, and may be composed of a magnetic storage medium or another storage medium. The memory 17 may be integrally configured with the controller 19.

The memory 17 holds a plurality of access point names (APNs: Access Point Names). The memory 17 may hold a plurality of APNs in an order in which connection requests are attempted at the time of carrier determination. The connection request at the time of carrier determination will be described later. The memory 17 may hold, for example, the corresponding APN for all carriers capable of wireless communication with the mobile terminal 100. Alternatively, the memory 17 may hold, for example, the corresponding APN for some carriers among the carriers on which the mobile terminal 100 can wirelessly communicate. Here, the fact that wireless communication is possible with a certain carrier means that the wireless communication unit 11 of the mobile terminal 100 corresponds to the communication method of the carrier.

The APN includes information necessary for the mobile terminal 100 to perform data communication using a telephone line. The APN contains information that specifies a gateway that serves as a connection window from a telephone line to a network such as the Internet.

A carrier that enables data communication by setting the APN is associated with the APN. For example, when "carrier A" is associated with an APN called "APN-A" and the carrier corresponding to the SIM card 30 is "carrier A", the mobile terminal 100 into which the SIM card 30 is inserted is an APN. By setting "APN-A" as, data communication becomes possible.

The memory 17 holds the carrier setting flag. In the carrier setting flag, the carrier name corresponding to the carrier determined by the mobile terminal 100 to perform data communication is set. When the carrier on which the mobile terminal 100 performs data communication has not been determined yet, a flag indicating that the carrier on which data communication is performed has not been determined, such as "NONE", is set in the carrier setting flag. ..

The SIM card slot 18 can accept the insertion of the SIM card 30. When the SIM card 30 is inserted, the SIM card slot 18 outputs a signal indicating that the SIM card 30 has been inserted to the controller 19.

The controller 19 controls each component of the mobile terminal 100. The controller 19 is configured as, for example, a processor. The controller 19 may include one or more processors. The processor may include a general-purpose processor that loads a specific program and performs a specific function, and a dedicated processor specialized for a specific process. The dedicated processor may include an integrated circuit (IC) for a specific application. ICs for specific applications are also referred to as ASICs (Application Specific Integrated Circuits). The processor may include a programmable logic device. The programmable logic device is also referred to as PLD (Programmable Logic Device). The PLD may include an FPGA (Field-Programmable Gate Array). The controller 19 may be either a SoC (System-on-a-Chip) in which one or a plurality of processors cooperate, or a SiP (System in a Package).

The controller 19 can determine a carrier on which the mobile terminal 100 performs data communication based on a plurality of APNs held by the memory 17. The carrier on which the mobile terminal 100 performs data communication is a carrier corresponding to the SIM card 30 inserted in the mobile terminal 100. The details of the procedure for determining the carrier on which the mobile terminal 100 performs data communication will be described later.

When the carrier for data communication is determined, the controller 19 sets the carrier name corresponding to the carrier for data communication in the carrier setting flag, sets the APN associated with the carrier name as the APN, and restarts. ..

When the mobile terminal 100 determines the carrier for data communication, the controller 19 reads the carrier name of the carrier setting flag from the memory 17 and sets the operating environment of the mobile terminal 100 to the carrier-specific environment according to the carrier name. It's okay. The controller 19 may change the home screen displayed by the display 15, for example, according to the determined carrier. The controller 19 may change, for example, the type of application displayed on the home screen by the display 15 according to the determined carrier.

The procedure for the controller 19 to determine the carrier on which the mobile terminal 100 performs data communication will be described with reference to FIGS. 2 and 3.

First, with reference to FIG. 2, an example of an operation in which the mobile terminal 100 according to the first embodiment of the present disclosure determines a carrier for performing data communication will be described.

The controller 19 of the mobile terminal 100 may start the flow shown in FIG. 2 when the SIM card 30 is inserted into the SIM card slot 18 and the power of the mobile terminal 100 is first turned on. At the start of the flow shown in FIG. 2, the carrier setting flag held by the memory 17 is set to "NONE".

The controller 19 makes a data communication connection request to the first APN held by the memory 17 (step S101). Here, if the APN that made the connection request is an APN to which a carrier corresponding to the SIM card 30 is associated, the connection is successful, but if the APN is not associated with a carrier corresponding to the SIM card 30, the connection fails. do.

The controller 19 determines whether or not the data communication connection is successful with the initial APN set (step S102).

When the data communication connection is successful (Yes in step S102), the controller 19 sets the carrier name associated with the APN with which the connection is successful in the carrier setting flag (step S103), and determines the carrier to perform data communication. End the process.

When the data communication connection fails (No in step S102), the controller 19 makes a data communication connection request to the next APN held by the memory 17 (step S104).

The controller 19 determines whether or not the data communication connection is successful with the next APN set (step S105).

When the data communication connection is successful (Yes in step S105), the controller 19 sets the carrier name associated with the APN with which the connection is successful in the carrier setting flag (step S103), and determines the carrier to perform data communication. End the process.

When the data communication connection fails (No in step S105), the controller 19 determines whether or not the APN that made the data communication connection request this time is the last APN held by the memory 17 (step). S106).

If the APN that made the connection request for data communication this time is not the last APN held by the memory 17 (No in step S106), the controller 19 returns to step S104.

When the APN for which the data communication connection request is made this time is the last APN held by the memory 17 (Yes in step S106), the controller 19 keeps the carrier setting flag set to "NONE" in FIG. 2. End the flow shown in.

In this way, the controller 19 sequentially makes connection requests to the plurality of APNs held by the memory 17 until the connection for data communication is successful, and the carrier associated with the APN that has succeeded in the connection is set. It is determined that the mobile terminal 100 is a carrier that performs data communication. As a result, the controller 19 can automatically determine the carrier on which the mobile terminal 100 performs data communication.

The process of steps S101 to S106 shown in FIG. 2 may be hereinafter referred to as "APN brute force connection".

The controller 19 may execute the carrier determination process by the round robin connection of the APN shown in FIG. 2 only for the APN to which the carrier of the MVNO is associated. In this case, the controller 19 determines whether or not the carrier corresponding to the SIM card 30 is an MNO based on the information read from the SIM card 30 before step S101. When the controller 19 determines that the carrier corresponding to the SIM card 30 is an MNO, the controller 19 does not proceed to step S101 and ends the carrier determination process while setting the carrier setting flag to "NONE". If the controller 19 determines that the carrier corresponding to the SIM card 30 is not an MNO, the controller 19 proceeds to step S101. At this time, the controller 19 executes a brute force connection of the APN only for the APN to which the carrier of the MVNO is associated.

Subsequently, with reference to FIG. 3, another example of the operation of the mobile terminal 100 according to the first embodiment of the present disclosure to determine a carrier for performing data communication will be described.

The controller 19 of the mobile terminal 100 may start the flow shown in FIG. 3 when the SIM card 30 is inserted into the SIM card slot 18 and the power of the mobile terminal 100 is first turned on. At the start of the flow shown in FIG. 3, the carrier setting flag held by the memory 17 is set to "NONE".

The controller 19 causes the display 15 to display a plurality of APNs held by the memory 17 (step S201).

The controller 19 accepts a user's operation on the operation unit 16 for selecting one APN from a plurality of APNs (step S202). For example, when the display 15 is a touch panel display, the controller 19 accepts the APN touched by the user as the APN selected by the user. Since the user usually knows the carrier corresponding to the purchased SIM card 30, the user can select the APN to which the carrier capable of data communication is associated.

The controller 19 sets the carrier name associated with the APN selected by the user in the carrier setting flag (step S203), and ends the process of determining the carrier for data communication.

In this way, the controller 19 may accept the selection from the user and determine the carrier on which the mobile terminal 100 performs data communication, instead of executing the round-robin connection of the APN.

The flow shown in FIGS. 2 and 3 has been described as being executed when the SIM card 30 is inserted into the SIM card slot 18 and the power of the mobile terminal 100 is first turned on. However, the conditions for starting the flow shown in FIGS. 2 and 3 are not limited to this. For example, the flow shown in FIGS. 2 and 3 may be executed even when the user selects to execute the all reset process by the operation unit 16.

<Processing when mobile data setting is off>
When the mobile data setting is set to off in the mobile terminal 100, the mobile terminal 100 usually does not perform data communication using a telephone line. Therefore, when the mobile data setting is set to off, the controller 19 does not make a data communication connection request to the APN, so that the controller 19 cannot execute the brute force connection of the APN shown in FIG. As a result, if the mobile data setting is set to off, there is a problem that the mobile terminal 100 may not be able to determine the carrier for data communication by the round robin connection of the APN shown in FIG.

In order to solve the above problem, the mobile terminal 100 may perform the following processing.
(1) Use of non-default APN type (2) Execution of connection request when mobile data setting is off (3) Prohibition of mobile data setting off before carrier determination

First, "(1) Use of non-default APN type" will be described.

APNs can have default and non-default as APN types. When the APN type is the default, the mobile terminal 100 does not perform data communication when the mobile data setting is set to off. On the other hand, when the APN type is non-default, the mobile terminal 100 performs data communication even if the mobile data setting is set to off. As a non-default APN type, for example, there is "hipri".

When making a connection request for data communication in steps S101 and S104 shown in FIG. 2, the controller 19 may make a connection request to the APN using the non-default APN type.

Thereby, even if the mobile data setting is set to off, the controller 19 can determine the carrier on which the mobile terminal 100 performs data communication.

Next, "(2) Execution of connection request when mobile data setting is off" will be described.

The controller 19 may execute the data communication connection request of step S101 and step S104 shown in FIG. 2 even if the mobile data setting is set to off. When the data communication connection to any APN is successful, the controller 19 may set the carrier setting flag to the carrier name associated with the APN in which the connection is successful.

At this time, the controller 19 may disconnect the successful data communication connection without notifying the application that the data communication connection is successful until the mobile data setting is turned on.

Thereby, even if the mobile data setting is set to off, the controller 19 can determine the carrier on which the mobile terminal 100 performs data communication. Further, the controller 19 does not execute data communication while the mobile data setting is off.

Next, "(3) Prohibition of turning off mobile data settings before carrier determination" will be described.

The controller 19 may not display a menu on which the mobile data setting can be turned off on the display 15 until the mobile terminal 100 determines a carrier for data communication.

As a result, the user cannot select a menu that can turn off the mobile data setting, so that the controller 19 turns off the mobile data setting before the mobile terminal 100 determines the carrier with which the data communication is performed. It can be prevented from being set.

Further, usually, when the mobile terminal 100 is connected to Wi-Fi, the data communication using the telephone line is invalidated. Therefore, even when the Wi-Fi connection is made, the controller 19 cannot execute the brute force connection of the APN shown in FIG. In order to prevent this, the controller 19 may not display the menu that can be connected to Wi-Fi on the display 15 until the mobile terminal 100 determines the carrier for data communication.

<Suppression of unintended carrier decision>
For example, the user A may own the mobile terminal 100 and insert the SIM card 30 having only a voice contract to use the mobile terminal 100. In this case, since the mobile terminal 100 cannot perform data communication with the SIM card 30 having only a voice contract inserted, the carrier setting flag remains "NONE". In this case, the user A may temporarily lend the mobile terminal 100 to the user B, and the user B may insert the SIM card 30 of the user B into the borrowed mobile terminal 100 to turn on the power of the mobile terminal 100. sell. In this case, the carrier with which the mobile terminal 100 performs data communication can be determined as the carrier corresponding to the SIM card 30 of the user B. Then, the operating environment of the mobile terminal 100 may be set to the carrier-specific environment corresponding to the SIM card 30 of the user B. There is a problem that such an unintended career decision is not preferable.

In order to solve the above problem, the mobile terminal 100 may perform the following processing.

When the SIM card 30 is inserted, the controller 19 stores unique information for identifying the SIM card 30 in the memory 17.

When the power of the controller 19 is turned on in a state where the carrier has not been determined, that is, when the carrier setting flag is "NONE", the currently inserted SIM card 30 is the same as the previously inserted SIM card 30. It is determined whether or not it is. The controller 19 compares the information unique to the SIM card 30 stored in the memory 17 to determine whether or not the currently inserted SIM card 30 is the same as the previously inserted SIM card 30. Can be done.

When the currently inserted SIM card 30 is a SIM card 30 different from the previously inserted SIM card 30, the controller 19 executes a carrier determination process before executing the flow shown in FIG. 2. A confirmation dialog for confirming whether or not it is acceptable is displayed on the display 15.

By displaying the confirmation dialog on the display 15, the controller 19 can suppress an unintended carrier determination that the carrier is determined by the carrier corresponding to the SIM card 30 of the user B who is not the original user.

As described above, according to the present embodiment, the controller 19 determines the carrier on which the mobile terminal 100 performs data communication based on the plurality of APNs held by the memory 17. Thereby, even when the carrier capable of data communication by the mobile terminal 100 is the carrier of MVNO, the user can determine the carrier to perform data communication without manually inputting the APN. Therefore, the mobile terminal 100 according to the present embodiment can improve the convenience of carrier determination.

Further, according to the present embodiment, the controller 19 can determine a carrier for data communication without requiring a response on the server side.

Further, according to the present embodiment, since it is possible to set the operation suitable for each carrier with the same software, it is easy to upgrade the software of the mobile terminal 100.

(Second Embodiment)
FIG. 4 is a diagram showing a schematic configuration of the mobile terminal 200 according to the second embodiment of the present disclosure. The mobile terminal 200 is a terminal in which at least one of the first SIM card 31 and the second SIM card 32 is inserted to perform a call, data communication, or the like. The mobile terminal 200 may be a mobile phone, a smartphone, or the like.

As shown in FIG. 4, the mobile terminal 200 includes a wireless communication unit 11, a speaker 12, a microphone 13, a camera 14, a display 15, an operation unit 16, a memory 17, and a first SIM card slot 21. And a second SIM card slot 22 and a controller 23. The mobile terminal 200 is a terminal provided with two SIM card slots, a first SIM card slot 21 and a second SIM card slot 22, and is a so-called "multi-SIM compatible" terminal.

The mobile terminal 200 according to the second embodiment is mainly different from the mobile terminal 100 according to the first embodiment in that it includes two SIM card slots, a first SIM card slot 21 and a second SIM card slot 22. do. Hereinafter, the second embodiment will be mainly described in terms of differences from the first embodiment, and the same contents as those in the first embodiment will be omitted as appropriate.

The mobile terminal 200 can perform data communication with a carrier corresponding to the first SIM card 31 inserted in the first SIM card slot 21. Further, the mobile terminal 200 can perform data communication with a carrier corresponding to the second SIM card 32 inserted in the second SIM card slot 22. However, since the mobile terminal 200 can only connect one data at a time, data communication is performed by either a carrier corresponding to the first SIM card 31 or a carrier corresponding to the second SIM card 32. do.

The controller 23 selects either the carrier corresponding to the first SIM card 31 or the carrier corresponding to the second SIM card 32, and performs data communication.

With reference to FIG. 5, an example of an operation in which the mobile terminal 200 according to the second embodiment of the present disclosure determines a carrier for performing data communication will be described.

The controller 23 of the mobile terminal 200 selects the first SIM card 31 inserted in the first SIM card slot 21 as the SIM card for performing the round robin connection of the APN (step S301).

The controller 23 makes a brute force connection of the APN for the first SIM card 31 inserted in the first SIM card slot 21 (step S302).

The controller 23 determines whether or not the data communication connection is successful in the round robin connection of the APN in step S302 (step S303).

When the data communication connection is successful (Yes in step S303), the controller 23 sets the carrier name associated with the APN with which the connection is successful in the carrier setting flag (step S304), and determines the carrier to perform data communication. End the process.

When the data communication connection fails (No in step S303), the controller 23 uses the second SIM card 32 inserted in the second SIM card slot 22 as the SIM card for performing the round robin connection of the APN. Select (step S305).

The controller 23 makes a brute force connection of the APN for the second SIM card 32 inserted in the second SIM card slot 22 (step S306).

The controller 23 determines whether or not the data communication connection is successful in the round robin connection of the APN in step S306 (step S307).

When the data communication connection is successful (Yes in step S307), the controller 23 sets the carrier name associated with the APN with which the connection is successful in the carrier setting flag (step S304), and determines the carrier to perform data communication. End the process.

When the data communication connection fails (No in step S307), the controller 23 ends the flow shown in FIG. 5 with the carrier setting flag set to "NONE".

As described above, the mobile terminal 200 according to the second embodiment uses the second SIM card 32 even if the APN for which the connection is successful cannot be found in the brute force connection of the APN targeting the first SIM card 31. Make a brute force connection of the target APN. As a result, when the mobile terminal 200 can perform data communication with either the carrier corresponding to the first SIM card 31 or the carrier corresponding to the second SIM card 32, the carrier capable of data communication is associated with the mobile terminal 200. You can find the APN you are using.

<Receiving carrier email>

When the mobile terminal 200 is performing data communication with a carrier corresponding to the first SIM card 31, the mobile terminal 200 can receive the carrier mail that has arrived at the mail server (MMSC: Multimedia Messaging Service Center) of the carrier. Further, when the mobile terminal 200 is performing data communication with a carrier corresponding to the second SIM card 32, the mobile terminal 200 can receive the carrier mail that has arrived at the mail server of the carrier.

However, since the mobile terminal 200 can only connect one data at a time, data communication is performed between the carrier corresponding to the first SIM card 31 or the carrier corresponding to the second SIM card 32. Only the carrier mail of the carrier on the side can be received. Therefore, for example, when the mobile terminal 200 communicates data with a carrier corresponding to the first SIM card 31, the mobile terminal 200 sends a carrier mail arriving at the mail server of the carrier corresponding to the second SIM card 32. I can't receive it.

In order to solve the above problem, the mobile terminal 200 may perform the following processing.

The controller 23 corresponds to the carrier corresponding to the first SIM card 31 inserted in the first SIM card slot 21 or the second SIM card 32 inserted in the second SIM card slot 22. Receive notification from the carrier that the carrier mail is being received by WAP push notification via the telephone line.

When the controller 23 receives the WAP push notification notifying that the carrier mail has been received, the controller 23 sets the APN so that the data is connected with the SIM card corresponding to the carrier that received the WAP push notification.

As a result, the mobile terminal 200 can receive the carrier mail that has arrived at the mail server of the carrier that originally did not perform data communication.

The controller 23 may set the APN so that the carrier that originally communicated the data communicates the data again after receiving the mail from the carrier that received the WAP push notification.

Although the present disclosure has been described based on the drawings and examples, it should be noted that those skilled in the art can easily make various modifications and modifications based on the present disclosure. Therefore, it should be noted that these modifications and modifications are within the scope of the present invention. For example, the functions included in each component and each step can be rearranged so as not to be logically inconsistent, and a plurality of components or steps can be combined or divided into one. Is. Further, although the present invention has been mainly described with respect to the device, the present invention is a method including a step executed by each component of the device, a method executed by a processor included in the device, a program, or a storage medium for recording the program. Can also be realized. It should be understood that these are also included in the scope of the present invention.

100, 200 Mobile terminal 11 Wireless communication unit 12 Speaker 13 Microphone 14 Camera 15 Display 16 Operation unit 17 Memory 18 SIM card slot 19 Controller 21 First SIM card slot 22 Second SIM card slot 23 Controller 30 SIM card 31 First SIM card 32 Second SIM card

Claims (6)

When deciding the carrier of APN (Access Point Name), connection requests are made to multiple APNs until the data communication connection is successful, and the carrier of the APN that succeeds in connection first is decided as the carrier that the own machine performs data communication. ,
A mobile terminal that sets the operating environment according to the determined carrier . It ’s a mobile terminal,
Memory that holds multiple APNs (Access Point Names) and
A controller for determining a carrier on which the own machine performs data communication based on the plurality of APNs is provided.
The controller
Even if the mobile data setting of the mobile terminal is set to off, connection requests are made to the plurality of APNs in order until the connection for data communication is successful.
The carrier linked to the APN that succeeded in connection is determined to be the carrier that the own machine performs data communication.
A mobile device that disconnects for successful data communication without notifying the app that the connection was successful after a successful connection. Memory that holds multiple APNs (Access Point Names) and
Based on the plurality of APNs, a controller that determines the carrier on which the own machine performs data communication, and a controller.
With a display,
The controller
Until the connection for data communication is successful, the connection requests are made to the plurality of APNs in order, and the connection is requested.
The carrier linked to the APN that succeeded in connection is determined to be the carrier that the own machine performs data communication.
A mobile terminal that does not display a menu on the display that allows the mobile data setting to be turned off until the carrier determines the carrier for data communication. In the mobile terminal according to claim 2 or 3.
Further equipped with a first SIM card slot and a second SIM card slot,
The controller
Targeting the SIM card inserted in the first SIM card slot, connection requests are made to the plurality of APNs in order, and if the connection is not successful, the SIM card is inserted into the second SIM card slot. A mobile terminal that sequentially makes connection requests to the plurality of APNs for a SIM card that has been used. In the mobile terminal according to claim 4,
The controller
Notification that mail is being received from the carrier corresponding to the SIM card inserted in the first SIM card slot or the carrier corresponding to the SIM card inserted in the second SIM card slot. Is received by WAP push notification,
A mobile terminal that sets the APN to connect data with a SIM card corresponding to the carrier that received the notification. Memory that holds multiple APNs (Access Point Names) and
Based on the plurality of APNs, a controller that determines the carrier on which the own machine performs data communication, and a controller.
With the display
Equipped with a SIM card slot,
The controller
Until the connection for data communication is successful, the connection requests are made to the plurality of APNs in order, and the connection is requested.
The carrier linked to the APN that succeeded in connection is determined to be the carrier that the own machine performs data communication.
If a SIM card different from the previously inserted SIM card is inserted into the SIM card slot without the carrier being determined, before making connection requests to the plurality of APNs in order, before making connection requests to the plurality of APNs in order. A mobile terminal that displays a confirmation dialog on the display.

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